Bio


Hai Wang is Professor of Mechanical Engineering at Stanford University. His research interests are high-speed propulsion, combustion, and renewable energy conversion. His current research topics include combustion chemistry of conventional and renewable fuels, detonation, high-speed propulsion, quantum-chemistry guided battery materials design, transport theories. He is the author and coauthor of recent papers in scholarly journals, including "Stable sodium-sulfur electrochemistry enabled by phosphorus-based complexation" in PNAS, “Geometric modeling and analysis of detonation cellular stability" in Proceedings of the Combustion Institute, "Flame-formed carbon nanoparticles exhibit quantum dot behaviors" in PNAS, "Nanoparticles in dilute gases: Equivalence of momentum accommodation and surface adsorption" in Physical Review E, "A Physics-based approach to modeling real-fuel combustion chemistry. I. Evidence from experiments, and thermodynamic, chemical kinetic and statistical considerations" in Combustion and Flame, and “Formation of nascent soot and other condensed-phase materials in flames” in Proceedings of the Combustion Institute. He is currently the Editor-in-Chief of Progress in Energy and Combustion Science, a highly influential energy journal published by Elsevier with an impact factor of 35.3 (2021), and the Vice President (President-Elect) of the Combustion Institute.

Academic Appointments


Administrative Appointments


  • Professor, Department of Mechanical Engineering, Stanford University (2013 - Present)
  • Co-Founder, Hestia Tec, LLC (2010 - 2014)
  • Northrop Chair in Engineering, University of Southern California (2010 - 2013)
  • Associate Chair, Department of Aerospace and Mechanical Engineering, University of Southern California (2008 - 2009)
  • Professor, Department of Aerospace and Mechanical Engineering, University of Southern California (2007 - 2013)
  • Co-Founder, TISOL, LLC (2007 - 2011)
  • Associate Professor, Department of Aerospace and Mechanical Engineering, University of Southern California (2004 - 2007)
  • Associate Professor, Department of Mechanical Engineering, University of Delaware (2001 - 2004)
  • Assistant Professor, Department of Mechanical Engineering, University of Delaware (1997 - 2001)
  • Professional Research Staff, Department of Mechanical and Aerospace Engineering, Princeton University (1994 - 1996)
  • Postdoctoral Research Associate, Fuel Science Program, Department of Materials Science and Engineering, Pennsylvania State University (1992 - 1994)

Honors & Awards


  • Humboldt Senior Research Award, Alexander von Humboldt Foundation (2019)
  • Mercator Fellow, The German Research Foundation (DFG) (2019)
  • Fellow, The Combustion Institute (2018)
  • Fellow, American Society of Mechanical Engineers (ASME) (2018)
  • Propellants and Combustion Award, AIAA (2018)
  • Distinguished Paper Award, Thirty-Fifth International Symposium on Combustion (2014)
  • Senior Research Award, Viterbi School of Engineering, USC (2011)
  • Changjiang Scholar, Ministry of Education, China (2010)
  • Northrop Chair in Engineering, University of Southern California (2010)
  • Combustion and Flame Most Cited Author 2005-2008, Elsevier (2009)
  • Distinguished Paper Award, Thirty-First International Symposium on Combustion (2006)
  • CAREER Award, National Science Foundation (1999)
  • C.C.Wright Award for Excellence in Graduate Study, Fuel Science, Pennsylvania State University (1992)

Boards, Advisory Committees, Professional Organizations


  • Vice President, The Combustion Institute (2020 - Present)
  • Co-Chair, 37th International Symposium on Combustion (2016 - Present)
  • Editor-in-Chief, Progress in Energy and Combustion Science (2015 - Present)
  • Member of the Editorial Board, Frontiers in Energy (2012 - Present)
  • Associate Editor, Proceedings of the Combustion Institute (2008 - 2014)
  • Member of the Editorial Board, Progress in Energy and Combustion Science (2006 - 2015)
  • Member of the Editorial Board, Combustion and Flame (2003 - 2008)
  • Member of the Editorial Advisory Board, International Journal of Chemical Kinetics (2001 - 2003)
  • Member of the Committee on Biological and Physical Sciences in Space, National Academies of Sciences, Engineering and Medicine (2016 - Present)
  • Rockets Team Faculty Advisor and Member of the Advisory Board, Stanford Space Initiative (SSI) (2015 - Present)
  • Member of the Awards Portfolio Committee, The Combustion Institute (2015 - 2015)
  • Chair, Heterogeneous Reaction Processes, NASA CombustionLab & its Workshop (2014 - 2014)
  • Member of the Board of Visitors, Mechanical Sciences Division, Army ReseaRCH OFFICE (2013 - 2013)
  • Member of the Advisory Board, National Center for Hypersonic Combined Cycle Propulsion (2013 - 2014)
  • Thrust leader, Combustion Energy Frontier Research Center (CEFRC) (2010 - 2014)
  • Member of the Steering Committee, Combustion Energy Frontier Research Center (CEFRC) (2010 - 2014)
  • Member of the Fuel Cells Working Group, The State of Delaware (2002 - 2003)

Professional Education


  • Ph.D., Pennsylvania State University, University Park, Pennsylvania, Fuel Science (1992)
  • M.S., Michigan Technological University, Houghton, Michigan, Chemical Engineering (1986)
  • B.Eng., East China University of Science and Technology, Polymer Materials Science and Engineering (1984)

Patents


  • Hai Wang, Lee-Yang Wang, Erin N. Kampschroer. "United States Patent 9,314,800 Apparatus and process for high throughput powder production", Apr 19, 2016
  • Hai Wang, Denis Phares. "United States Patent 8329071 Multicomponent Nanoparticle Materials and Process and Apparatus Therefor", Dec 11, 2012
  • Hai Wang, Denis J. Phares, Erik Tolmachoff. "United States Patent 8329251 Method for Preparing Metal Oxide Crystalline Nanoparticle Films for Dye Sensitized Solar Cell Photoanodes", Dec 11, 2012
  • Hai Wang, Denis Phares. "United States Patent 8197908 Method for preparing electrically conducting materials", Jun 12, 2012

2024-25 Courses


Stanford Advisees


All Publications


  • Coping with eco-anxiety: An interdisciplinary perspective for collective learning and strategic communication The Journal of Climate Change and Health Wang, H., Safer, D. L., Cosentino , M., Cooper, R., Van Susteren , L., Coren, E., Nosek, G., Lertzmann, R., Sutton, S. 2023
  • A deep learning-based system for survival benefit prediction of tyrosine kinase inhibitors and immune checkpoint inhibitors in stage IV non-small cell lung cancer patients: A multicenter, prognostic study eClinicalMedicine Deng, K., Wang, L., Liu, Y., Li, X., Hou, Q., Cao, M., Ng, N. N., Wang, H., Chen, H., Yeom, K. W., Zhao, M., Wu, N., Gao, P., Shi, J., Liu, Z., Li, W., Tian, J., Song, J. 2022; 51: 1-14
  • The Expanding Armamentarium of Innovative Bioengineered Strategies to Augment Cardiovascular Repair and Regeneration Frontiers in Bioengineering and Biotechnology Elde, S., Wang, H., Woo, Y. 2021: 674172

    Abstract

    Cardiovascular disease remains the leading cause of death worldwide. While clinical trials of cell therapy have demonstrated largely neutral results, recent investigations into the mechanisms of natural myocardial regeneration have demonstrated promising new intersections between molecular, cellular, tissue, biomaterial, and biomechanical engineering solutions. New insight into the crucial role of inflammation in natural regenerative processes may explain why previous efforts have yielded only modest degrees of regeneration. Furthermore, the new understanding of the interdependent relationship of inflammation and myocardial regeneration have catalyzed the emergence of promising new areas of investigation at the intersection of many fields.

    View details for DOI 10.3389/fbioe.2021.674172

    View details for PubMedCentralID PMC8205517

  • Navigating the Crossroads of Cell Therapy and Natural Heart Regeneration Frontiers in Cell and Developmental Biology Elde, S., Wang, H., Woo, Y. 2021: 674180

    Abstract

    Cardiovascular disease remains the leading cause of death worldwide despite significant advances in our understanding of the disease and its treatment. Consequently, the therapeutic potential of cell therapy and induction of natural myocardial regeneration have stimulated a recent surge of research and clinical trials aimed at addressing this challenge. Recent developments in the field have shed new light on the intricate relationship between inflammation and natural regeneration, an intersection that warrants further investigation.

    View details for DOI 10.3389/fcell.2021.674180

    View details for PubMedCentralID PMC8148343

  • TRY plant trait database - enhanced coverage and open access Global Change Biology Kattge, J., et al 2019

    View details for DOI 10.1111/gcb.14904

  • The distillation curve and sooting propensity of a typical jet fuel Fuel Saggese, C., Singh, A. V., Xue, X., Chu, C., Kholghy, M. R., Zhang, T., Camacho, J., Giaccai, J., Miller, H., Thomson, M. J., Sung, C., Wang, H. 2019; 235
  • Asiatic Acid Attenuates Bone Loss by Regulating Osteoclastic Differentiation Calcified Tissue International Huang, J., Wang, H., Huang, M., Zong, Z., Wu, X., Xu, J., Lan, H., Zheng, J., Zhang, X., Lee, Y., Wei, B., Cui, L., Li, G., Lin, S. 2019
  • Critical kinetic uncertainties in modeling hydrogen/carbon monoxide, methane, methanol, formaldehyde, and ethylene combustion COMBUSTION AND FLAME Tao, Y., Smith, G. P., Wang, H. 2018; 195: 18–29
  • Bottom-up modeling using the rate-controlled constrained-equilibrium theory: The n-butane combustion chemistry COMBUSTION AND FLAME Janbozorgi, M., Wang, H. 2018; 194: 223–32
  • A physics-based approach to modeling real-fuel combustion chemistry - II. Reaction kinetic models of jet and rocket fuels COMBUSTION AND FLAME Xu, R., Wang, K., Banerjee, S., Shao, J., Parise, T., Zhu, Y., Wang, S., Movaghar, A., Lee, D., Zhao, R., Han, X., Gao, Y., Lu, T., Brezinsky, K., Egolfopoulos, F. N., Davidson, D. F., Hanson, R. K., Bowman, C. T., Wang, H. 2018; 193: 520–37
  • Including real fuel chemistry in LES of turbulent spray combustion COMBUSTION AND FLAME Felden, A., Esclapez, L., Riber, E., Cuenot, B., Wang, H. 2018; 193: 397–416
  • A physics-based approach to modeling real-fuel combustion chemistry - I. Evidence from experiments, and thermodynamic, chemical kinetic and statistical considerations COMBUSTION AND FLAME Wang, H., Xu, R., Wang, K., Bowman, C. T., Hanson, R. K., Davidson, D. F., Brezinsky, K., Egolfopoulos, F. N. 2018; 193: 502–19
  • Effect of n-dodecane decomposition on its fundamental flame properties COMBUSTION AND FLAME Smolke, J., Carbone, F., Egolfopoulos, F. N., Wang, H. 2018; 190: 65–73
  • Plant exploitation of the first farmers in Northwest China: Microbotanical evidence from Dadiwan Quaternary International Wang, J., Zhao, X., Wang, H., Liu, L. 2018
  • p4v: practical verification for programmable data planes SIGCOMM '18 Proceedings of the 2018 Conference of the ACM Special Interest Group on Data Communication Liu, J., Hallahan, W., Schlesinger, C., Sharif, M., Lee, J., Soulé, R., Wang, H., Caşcaval, C., McKeown, N., Foster, N. 2018: 490-503

    View details for DOI 10.1145/3230543.3230582

  • Editorial PROGRESS IN ENERGY AND COMBUSTION SCIENCE Schulz, C., Wang, H. 2018; 64: 1
  • A New Overall-Subgroup Simultaneous Test for Optimal Inference in Biomarker-Targeted Confirmatory Trials Statistics in Biosciences Belitskaya, I., Wang, H., Shih, M., Tian, L., Doros, G., Lew, R. A., Lu, Y. 2017
  • Mobility size distributions of soot in premixed propene flames COMBUSTION AND FLAME Lin, H., Gu, C., Camacho, J., Lin, B., Shao, C., Li, R., Gu, H., Guan, B., Wang, H., Huang, Z. 2016; 172: 365-373
  • Chemical kinetic model uncertainty minimization through laminar flame speed measurements COMBUSTION AND FLAME Park, O., Veloo, P. S., Sheen, D. A., Tao, Y., Egolfopoulus, F. N., Wang, H. 2016; 172: 136-152

    Abstract

    Laminar flame speed measurements were carried for mixture of air with eight C3-4 hydrocarbons (propene, propane, 1,3-butadiene, 1-butene, 2-butene, iso-butene, n-butane, and iso-butane) at the room temperature and ambient pressure. Along with C1-2 hydrocarbon data reported in a recent study, the entire dataset was used to demonstrate how laminar flame speed data can be utilized to explore and minimize the uncertainties in a reaction model for foundation fuels. The USC Mech II kinetic model was chosen as a case study. The method of uncertainty minimization using polynomial chaos expansions (MUM-PCE) (D.A. Sheen and H. Wang, Combust. Flame 2011, 158, 2358-2374) was employed to constrain the model uncertainty for laminar flame speed predictions. Results demonstrate that a reaction model constrained only by the laminar flame speed values of methane/air flames notably reduces the uncertainty in the predictions of the laminar flame speeds of C3 and C4 alkanes, because the key chemical pathways of all of these flames are similar to each other. The uncertainty in model predictions for flames of unsaturated C3-4 hydrocarbons remain significant without considering fuel specific laminar flames speeds in the constraining target data set, because the secondary rate controlling reaction steps are different from those in the saturated alkanes. It is shown that the constraints provided by the laminar flame speeds of the foundation fuels could reduce notably the uncertainties in the predictions of laminar flame speeds of C4 alcohol/air mixtures. Furthermore, it is demonstrated that an accurate prediction of the laminar flame speed of a particular C4 alcohol/air mixture is better achieved through measurements for key molecular intermediates formed during the pyrolysis and oxidation of the parent fuel.

    View details for DOI 10.1016/j.combustflame.2016.07.004

    View details for Web of Science ID 000383922400011

    View details for PubMedCentralID PMC5120407

  • Particle size distribution of nascent soot in lightly and heavily sooting premixed ethylene flames COMBUSTION AND FLAME Gu, C., Lin, H., Camacho, J., Lin, B., Shao, C., Li, R., Gu, H., Guan, B., Huang, Z., Wang, H. 2016; 165: 177-187
  • An experimental and kinetic modeling study of n-dodecane pyrolysis and oxidation COMBUSTION AND FLAME Banerjee, S., Tangko, R., Sheen, D. A., Wang, H., Bowman, C. T. 2016; 163: 12-30
  • Mobility size and mass of nascent soot particles in a benchmark premixed ethylene flame COMBUSTION AND FLAME Camacho, J., Liu, C., Gu, C., Lin, H., Huang, Z., Tang, Q., You, X., Saggese, C., Li, Y., Jung, H., Deng, L., Wlokas, I., Wang, H. 2015; 162 (10): 3810-3822
  • In situ X-ray Scattering and Dynamical Modeling of Pd Catalyst Nanoparticles Formed in Flames JOURNAL OF PHYSICAL CHEMISTRY C Wang, J., Seifert, S., Winans, R. E., Tolmachoff, E., Xin, Y., Chen, D., Wang, H., Anderson, S. L. 2015; 119 (33): 19073-19082
  • Numerical simulation and parametric sensitivity study of particle size distributions in a burner-stabilised stagnation flame COMBUSTION AND FLAME Yapp, E. K., Chen, D., Akroyd, J., Mosbach, S., Kraft, M., Camacho, J., Wang, H. 2015; 162 (6): 2569-2581
  • Analysis of segregation and bifurcation in turbulent spray flames: A 3D counterflow configuration PROCEEDINGS OF THE COMBUSTION INSTITUTE Vie, A., Franzelli, B., Gao, Y., Lu, T., Wang, H., Ihme, M. 2015; 35: 1675-1683
  • Morphology of nascent soot in ethylene flames PROCEEDINGS OF THE COMBUSTION INSTITUTE Schenk, M., Lieb, S., Vieker, H., Beyer, A., Goelzhaeuser, A., Wang, H., Kohse-Hoeinghaus, K. 2015; 35: 1879-1886
  • Kinetics of nascent soot oxidation by molecular oxygen in a flow reactor PROCEEDINGS OF THE COMBUSTION INSTITUTE Camacho, J., Tao, Y., Wang, H. 2015; 35: 1887-1894
  • Skeletal reaction model generation, uncertainty quantification and minimization: Combustion of butane COMBUSTION AND FLAME Xin, Y., Sheen, D. A., Wang, H., Law, C. K. 2014; 161 (12): 3031-3039
  • Properties of Complexes Formed by Na+, Mg2+, and Fe2+ Binding with Benzene Molecules JOURNAL OF PHYSICAL CHEMISTRY A Kolakkandy, S., Pratihar, S., Aquino, A. J., Wang, H., Hase, W. L. 2014; 118 (40): 9500-9511

    Abstract

    A theoretical investigation was performed to study cation-π interactions in complexes of benzene (Bz) with cations, that is, M(z+)(Bz)n for M(z+) = Na(+), Mg(2+), Fe(2+) and n = 1-3, using MP2 theory with the 6-31+G* and 6-311++G** basis sets and the DFT/(B3LYP and B3LYP-D)/6-311++G** methods. Binding energies and structures of the complexes are reported. The splitting between the quintet and single states of the Fe(2+) complexes was found to depend on the number of benzene molecules in the complex and the complex's structure. All of the M(z+)(Bz) complexes prefer a half-sandwich geometry. A geometry with the cation sandwiched between the two benzene rings was found for the M(z+)(Bz)2 complexes, with the benzene rings either in an eclipsed or staggered conformation. An approximate cyclic structure, with the cation at its center, was found for three benzene molecules interacting with the cation. The cation-benzene binding energy is substantial and equal to 22, 108, and 151 kcal/mol for the Na(+)(Bz), Mg(2+)(Bz), and Fe(2+)(Bz) complexes, respectively. The strength of the interaction of the cation with an individual benzene molecule decreases as the number of benzene molecules bound to the cation increases; for example, it is 108 kcal/mol for Mg(2+)(Bz), but only 71 kcal/mol for Mg(2+)(Bz)3. There is a range of values for the M(z+)(Bz)n intermolecular vibrational frequencies; for example, they are ∼230-360 and ∼10-330 cm(-1) for the Mg(2+)(Bz) and Mg(2+)(Bz)3 complexes, respectively. Binding of the cation to benzene both red and blue shifts the benzene vibrational frequencies. This shifting is larger for the Mg(2+) and Fe(2+) complexes, as compared to those for Na(+), as a result of the former's stronger cation-benzene binding. The present study is an initial step to understand the possible importance of cation-π interactions for polycyclic aromatic hydrocarbon aggregation processes during soot formation.

    View details for DOI 10.1021/jp5029257

    View details for Web of Science ID 000343016900023

    View details for PubMedID 25144574

  • Kinetics of catalytic oxidation of methane, ethane and propane over palladium oxide COMBUSTION AND FLAME Xin, Y., Wang, H., Law, C. K. 2014; 161 (4): 1048-1054
  • Imaging Nanocarbon Materials: Soot Particles in Flames are Not Structurally Homogeneous CHEMPHYSCHEM Schenk, M., Lieb, S., Vieker, H., Beyer, A., Goelzhaeuser, A., Wang, H., Kohse-Hoeinghaus, K. 2013; 14 (14): 3248-3254

    Abstract

    For the first time, nascent soot particles are probed by using helium-ion microscopy (HIM). HIM is a technique that is similar to scanning electron microscopy (SEM) but it can achieve higher contrast and improved surface sensitivity, especially for carbonaceous materials. The HIM microscope yields images with a high contrast, which allows for the unambiguous recognition of smaller nascent soot particles than those observed in previous transmission electron microscopy studies. The results indicate that HIM is ideal for rapid and reliable probing of the morphology of nascent soot, with surface details visible down to approximately 5 nm, and particles as small as 2 nm are detectable. The results also show that nascent soot is structurally and chemically inhomogeneous, and even the smallest particles can have shapes that deviate from a perfect sphere.

    View details for DOI 10.1002/cphc.201300581

    View details for Web of Science ID 000325157100018

  • Kinetics of Catalytic Oxidation of Methane over Palladium Oxide by Wire Microcalorimetry JOURNAL OF PHYSICAL CHEMISTRY C Xin, Y., Lieb, S., Wang, H., Law, C. K. 2013; 117 (38): 19499-19507

    View details for DOI 10.1021/jp4058302

    View details for Web of Science ID 000330162500028

  • Isomerization kinetics of benzylic and methylphenyl type radicals in single-ring aromatics PROCEEDINGS OF THE COMBUSTION INSTITUTE Dames, E., Wang, H. 2013; 34: 307-314
  • Flexible polymer transistors with high pressure sensitivity for application in electronic skin and health monitoring Nature Comm. Schwartz, G., Tee, B., C-K., Mei, J., Appleton, A., L., Kim, H., D, Wang, H., Bao, Z. 2013; 4: 1859

    Abstract

    Flexible pressure sensors are essential parts of an electronic skin to allow future biomedical prostheses and robots to naturally interact with humans and the environment. Mobile biomonitoring in long-term medical diagnostics is another attractive application for these sensors. Here we report the fabrication of flexible pressure-sensitive organic thin film transistors with a maximum sensitivity of 8.4 kPa(-1), a fast response time of <10 ms, high stability over >15,000 cycles and a low power consumption of <1 mW. The combination of a microstructured polydimethylsiloxane dielectric and the high-mobility semiconducting polyisoindigobithiophene-siloxane in a monolithic transistor design enabled us to operate the devices in the subthreshold regime, where the capacitance change upon compression of the dielectric is strongly amplified. We demonstrate that our sensors can be used for non-invasive, high fidelity, continuous radial artery pulse wave monitoring, which may lead to the use of flexible pressure sensors in mobile health monitoring and remote diagnostics in cardiovascular medicine.

    View details for DOI 10.1038/ncomms2832

  • Evolution of size distribution of nascent soot in n- and i-butanol flames PROCEEDINGS OF THE COMBUSTION INSTITUTE Camacho, J., Lieb, S., Wang, H. 2013; 34: 1853-1860
  • On potential energy landscape and combustion chemistry modeling COMBUSTION AND FLAME Wang, H. 2013; 160 (1): 222-223
  • Dye sensitized solar cells prepared by flames stabilized on a rotating surface PROCEEDINGS OF THE COMBUSTION INSTITUTE Nikraz, S., Wang, H. 2013; 34: 2171-2178
  • Mesoporous Titania Films Prepared by Flame Stabilized on a Rotating Surface: Application in Dye Sensitized Solar Cells JOURNAL OF PHYSICAL CHEMISTRY C Nikraz, S., Phares, D. J., Wang, H. 2012; 116 (9): 5342-5351

    View details for DOI 10.1021/jp2095533

    View details for Web of Science ID 000301315700008

  • Propagation and extinction of benzene and alkylated benzene flames COMBUSTION AND FLAME Ji, C., Dames, E., Wang, H., Egolfopoulos, F. N. 2012; 159 (3): 1070-1081
  • Tunneling in Hydrogen-Transfer Isomerization of n-Alkyl Radicals JOURNAL OF PHYSICAL CHEMISTRY A Sirjean, B., Dames, E., Wang, H., Tsang, W. 2012; 116 (1): 319-332

    Abstract

    The role of quantum tunneling in hydrogen shift in linear heptyl radicals is explored using multidimensional, small-curvature tunneling method for the transmission coefficients and a potential energy surface computed at the CBS-QB3 level of theory. Several one-dimensional approximations (Wigner, Skodje and Truhlar, and Eckart methods) were compared to the multidimensional results. The Eckart method was found to be sufficiently accurate in comparison to the small-curvature tunneling results for a wide range of temperature, but this agreement is in fact fortuitous and caused by error cancellations. High-pressure limit rate constants were calculated using the transition state theory with treatment of hindered rotations and Eckart transmission coefficients for all hydrogen-transfer isomerizations in n-pentyl to n-octyl radicals. Rate constants are found in good agreement with experimental kinetic data available for n-pentyl and n-hexyl radicals. In the case of n-heptyl and n-octyl, our calculated rates agree well with limited experimentally derived data. Several conclusions made in the experimental studies of Tsang et al. (Tsang, W.; McGivern, W. S.; Manion, J. A. Proc. Combust. Inst. 2009, 32, 131-138) are confirmed theoretically: older low-temperature experimental data, characterized by small pre-exponential factors and activation energies, can be reconciled with high-temperature data by taking into account tunneling; at low temperatures, transmission coefficients are substantially larger for H-atom transfers through a five-membered ring transition state than those with six-membered rings; channels with transition ring structures involving greater than 8 atoms can be neglected because of entropic effects that inhibit such transitions. The set of computational kinetic rates were used to derive a general rate rule that explicitly accounts for tunneling. The rate rule is shown to reproduce closely the theoretical rate constants.

    View details for DOI 10.1021/jp209360u

    View details for PubMedID 22129143

  • Probing nascent soot in burned stabilized ethylene flames: a comparison of several microscopic techniques 34th International Symposium on Combustion Schenk, M., Vieker, S., Beyer, H., GšlzhŠuser, A., Wang, H., Kohse-Hoeinghaus, K. 2012
  • Nanoporous titania gas sensing films prepared using flame stabilized on a rotating surface (FSRS) Fall MRS Meeting and Exhibits Tolmachoff, E. D., Nikraz, S., Wang, H. 2012
  • On AFM probing of nascent soot structure 34th International Symposium on Combustion Lieb, S., Wang, H. 2012
  • Chemical kinetic uncertainty minimization through laminar flame speed measurements Spring Technical Meeting of the Western States Sections of the Combustion Institute, Arizona State University Park, O., Veloo, P. S., Wang, H., Egolfopoulos, F. N. 2012
  • Study of the formation and structure of Pd nanoparticles in flames by SAXS and simulation Fall MRS Meeting and Exhibits Winans, R. E., Wang, J. L., Seifeit, J., Anderson, S. L., Wang, H., Lieb, S., Tolmachoff, E. 2012
  • Characteristics of dye sensitized solar cells made with flame stabilized on a rotating surface (FSRS) 2012 Fall MRS Meeting and Exhibits Nikraz, S., Wang, H. 2012
  • The method of uncertainty quantification and minimization using polynomial chaos expansions COMBUSTION AND FLAME Sheen, D. A., Wang, H. 2011; 158 (12): 2358-2374
  • Nanoporous Titania Gas Sensing Films Prepared in a Premixed Stagnation Flame JOURNAL OF PHYSICAL CHEMISTRY C Tolmachoff, E., Memarzadeh, S., Wang, H. 2011; 115 (44): 21620-21628

    View details for DOI 10.1021/jp206061h

    View details for Web of Science ID 000296394300012

  • Combustion kinetic modeling using multispecies time histories in shock-tube oxidation of heptane COMBUSTION AND FLAME Sheen, D. A., Wang, H. 2011; 158 (4): 645-656
  • Formation of nascent soot and other condensed-phase materials in flames PROCEEDINGS OF THE COMBUSTION INSTITUTE Wang, H. 2011; 33: 41-67
  • Extinction of lean near-limit methane/air flames at elevated pressures under normal- and reduced-gravity PROCEEDINGS OF THE COMBUSTION INSTITUTE Zhang, H., Fan, R., Wang, S., Tian, X., Xu, K., Wan, S., Egolfopoulos, F. N. 2011; 33: 1171-1178
  • An experimental and modeling study of the propagation of cyclohexane and mono-alkylated cyclohexane flames PROCEEDINGS OF THE COMBUSTION INSTITUTE Ji, C., Dames, E., Sirjean, B., Wang, H., Egolfopoulos, F. N. 2011; 33: 971-978
  • Properties of nanocrystalline TiO2 synthesized in premixed flames stabilized on a rotating surface PROCEEDINGS OF THE COMBUSTION INSTITUTE Memarzadeh, S., Tolmachoff, E. D., Phares, D. J., Wang, H. 2011; 33: 1917-1924
  • Internal structure, hygroscopic and reactive properties of mixed sodium methanesulfonate-sodium chloride particles PHYSICAL CHEMISTRY CHEMICAL PHYSICS Liu, Y., Minofar, B., Desyaterik, Y., Dames, E., Zhu, Z., Cain, J. P., Hopkins, R. J., Gilles, M. K., Wang, H., Jungwirth, P., Laskin, A. 2011; 13 (25): 11846-11857

    Abstract

    Internal structures, hygroscopic properties and heterogeneous reactivity of mixed CH(3)SO(3)Na/NaCl particles were investigated using a combination of computer modeling and experimental approaches. Surfactant properties of CH(3)SO(3)(-) ions and their surface accumulation in wet, deliquesced particles were assessed using molecular dynamics (MD) simulations and surface tension measurements. Internal structures of dry CH(3)SO(3)Na/NaCl particles were investigated using scanning electron microscopy (SEM) assisted with X-ray microanalysis mapping, and time-of-flight secondary ion mass spectrometry (TOF-SIMS). The combination of these techniques shows that dry CH(3)SO(3)Na/NaCl particles are composed of a NaCl core surrounded by a CH(3)SO(3)Na shell. Hygroscopic growth, deliquescence and efflorescence phase transitions of mixed CH(3)SO(3)Na/NaCl particles were determined and compared to those of pure NaCl particles. These results indicate that particles undergo a two step deliquescence transition: first at ∼69% relative humidity (RH) the CH(3)SO(3)Na shell takes up water, and then at ∼75% RH the NaCl core deliquesces. Reactive uptake coefficients for the particle-HNO(3) heterogeneous reaction were determined at different CH(3)SO(3)Na/NaCl mixing ratios and RH. The net reaction probability decreased notably with increasing CH(3)SO(3)Na and at lower RH.

    View details for DOI 10.1039/c1cp20444k

    View details for Web of Science ID 000291656900006

    View details for PubMedID 21573304

  • Evidence of aliphatics in nascent soot particles in premixed ethylene flames PROCEEDINGS OF THE COMBUSTION INSTITUTE Cain, J. P., Camacho, J., Phares, D. J., Wang, H., Laskin, A. 2011; 33: 533-540
  • Temperature-dependent gas-surface chemical kinetic model for methane ignition catalyzed by in situ generated palladium nanoparticles PROCEEDINGS OF THE COMBUSTION INSTITUTE Shimizu, T., Wang, H. 2011; 33: 1859-1866
  • Products of the Benzene + O(P-3) Reaction JOURNAL OF PHYSICAL CHEMISTRY A Taatjes, C. A., Osborn, D. L., Selby, T. M., Meloni, G., Trevitt, A. J., Epifanovsky, E., Krylov, A. I., Sirjean, B., Dames, E., Wang, H. 2010; 114 (9): 3355-3370

    Abstract

    The gas-phase reaction of benzene with O((3)P) is of considerable interest for modeling of aromatic oxidation, and also because there exist fundamental questions concerning the prominence of intersystem crossing in the reaction. While its overall rate constant has been studied extensively, there are still significant uncertainties in the product distribution. The reaction proceeds mainly through the addition of the O atom to benzene, forming an initial triplet diradical adduct, which can either dissociate to form the phenoxy radical and H atom or undergo intersystem crossing onto a singlet surface, followed by a multiplicity of internal isomerizations, leading to several possible reaction products. In this work, we examined the product branching ratios of the reaction between benzene and O((3)P) over the temperature range 300-1000 K and pressure range 1-10 Torr. The reactions were initiated by pulsed-laser photolysis of NO(2) in the presence of benzene and helium buffer in a slow-flow reactor, and reaction products were identified by using the multiplexed chemical kinetics photoionization mass spectrometer operating at the Advanced Light Source (ALS) of Lawrence Berkeley National Laboratory. Phenol and phenoxy radical were detected and quantified. Cyclopentadiene and cyclopentadienyl radical were directly identified for the first time. Finally, ab initio calculations and master equation/RRKM modeling were used to reproduce the experimental branching ratios, yielding pressure-dependent rate expressions for the reaction channels, including phenoxy + H, phenol, cyclopentadiene + CO, which are proposed for kinetic modeling of benzene oxidation.

    View details for DOI 10.1021/jp9114145

    View details for Web of Science ID 000275046600049

    View details for PubMedID 20099861

  • Methane ignition catalyzed by in situ generated palladium nanoparticles COMBUSTION AND FLAME Shimizu, T., ABID, A. D., Poskrebyshev, G., Wang, H., Nabity, J., Engel, J., Yu, J., Wickham, D., Van Devener, B., Anderson, S. L., Williams, S. 2010; 157 (3): 421-435
  • Propagation and extinction of premixed C-5-C-12 n-alkane flames COMBUSTION AND FLAME Ji, C., Dames, E., Wang, Y. L., Wang, H., Egolfopoulos, F. N. 2010; 157 (2): 277-287
  • Weakly Bound Carbon-Carbon Bonds in Acenaphthene Derivatives and Hexaphenylethane JOURNAL OF PHYSICAL CHEMISTRY A Dames, E., Sirjean, B., Wang, H. 2010; 114 (2): 1161-1168

    Abstract

    A class of acenaphthene derivatives is shown to contain weak central carbon-carbon bonds that may be easily cleaved at high temperatures or even at ambient conditions to yield persistent free diradicals. To demonstrate the weak C-C bond strength, density functional theory calculations were carried out at several levels of theory for both the parent molecules and the diradicals resulting from the C-C bond cleavage. To assess the accuracy of the calculations, hexaphenylethane was chosen as a model compound due to its similarity with the molecules studied here, its great resonance stabilization, and long-standing history within the chemistry community. The C-C bond dissociation energy of hexaphenylethane was determined to be 11.3 +/- 1.4 kcal/mol using a combination of isodesmic reactions and calculations at the M06-2X/6-31+G(d,p) level of theory. The types of molecules presented here are proposed as strong possibilities for the natural existence of free radicals in young and mature soot formed in hydrocarbon combustion.

    View details for DOI 10.1021/jp909662m

    View details for PubMedID 20039628

  • Micro-FTIR study of soot chemical composition-evidence of aliphatic hydrocarbons on nascent soot surfaces PHYSICAL CHEMISTRY CHEMICAL PHYSICS Cain, J. P., Gassman, P. L., Wang, H., Laskin, A. 2010; 12 (20): 5206-5218

    Abstract

    Previous studies suggest that soot formed in premixed flat flames can contain a substantial amount of aliphatic compounds. Presence of these compounds may affect the kinetics of soot mass growth and oxidation in a way that is currently not understood. Using an infrared spectrometer coupled to a microscope (micro-FTIR), we examined the composition of soot sampled from a set of ethylene-argon-oxygen flames recently characterized (A. D. Abid, et al. Combust. Flame, 2008, 154, 775-788), all with an equivalence ratio Φ=2.07 but varying in maximum flame temperatures. Soot was sampled at three distances above the burner surface using a probe sampling technique and deposited on silicon nitride thin film substrates using a cascade impactor. Spectra were taken and analyses performed for samples collected on the lowest five impactor stages with the cut-off sizes of D(50)=10, 18, 32, 56 and 100 nm. The micro-FTIR spectra revealed the presence of aliphatic C–H, aromatic C–H and various oxygenated functional groups, including carbonyl (C=O), C–O–C and C–OH groups. Spectral analyses were made to examine variations of these functional groups with flame temperature, sampling position and particle size. Results indicate that increases in flame temperature leads to higher contents of non-aromatic functionalities. Functional group concentrations were found to be ordered as follows: [C=O]<[C–O]<[aliphatic C–H]. Aliphatic C–H was found to exist in significant quantities, with very little oxygenated groups present. The ratio of these chemical functionalities to aromatic C–H remains constant for particle sizes spanning 10-100 nm. The results confirm a previous experimental finding: a significant amount of aliphatic compounds is present in nascent soot formed in the flames studied, especially towards larger distances above the burner surface.

    View details for DOI 10.1039/b924344e

    View details for PubMedID 21491682

  • A high-temperature chemical kinetic model of n-alkane (up to n-dodecane), cyclohexane, and methyl-, ethyl-, n-propyl and n-butyl-cyclohexane oxidation at high temperatures JetSurF version 2.0, (http://melchior.usc.edu/JetSurF/JetSurF2.0). Wang, H., Dames, E., Sirjean, B., Sheen, D., A., Tango, R., Violi, A. 2010
  • In Situ Generation of Pd/PdO Nanoparticle Methane Combustion Catalyst: Correlation of Particle Surface Chemistry with Ignition JOURNAL OF PHYSICAL CHEMISTRY C Van Devener, B., Anderson, S. L., Shimizu, T., Wang, H., Nabity, J., Engel, J., Yu, J., Wickham, D., Williams, S. 2009; 113 (48): 20632-20639

    View details for DOI 10.1021/jp904317y

    View details for Web of Science ID 000272038600018

  • Quantitative measurement of soot particle size distribution in premixed flames - The burner-stabilized stagnation flame approach COMBUSTION AND FLAME Abid, A. D., Camacho, J., Sheen, D. A., Wang, H. 2009; 156 (10): 1862-1870
  • Evolution of Soot Particle Size Distribution Function in Burner-Stabilized Stagnation n-Dodecane-Oxygen-Argon Flames ENERGY & FUELS Abid, A. D., Camacho, J., Sheen, D. A., Wang, H. 2009; 23: 4286-4294

    View details for DOI 10.1021/ef900324e

    View details for Web of Science ID 000270671500010

  • Detailed and simplified kinetic models of n-dodecane oxidation: The role of fuel cracking in aliphatic hydrocarbon combustion PROCEEDINGS OF THE COMBUSTION INSTITUTE You, X., Egolfopoulos, F. N., Wang, H. 2009; 32: 403-410
  • A high-temperature chemical kinetic model of cyclohexane and its derivatives JetSurF version 1.1, (http://melchior.usc.edu/JetSurF/Version1_1 /Index.html). Sirjean, B., Dames, E., Sheen, D., A., Egolfopoulos, F., N., Wang, H., Davidson, D., F. 2009
  • Combustion Generated Fine Carbonaceous Particles edited by Bockhorn, H., D'Anna, A., Sarofim, A. F., Wang, H. Karlsruhe University Press. 2009
  • Size distribution and chemical composition measurements of nascent soot formed in premixed ethylene flames Combustion Generated Fine Carbonaceous Particles Abid, A. D., Wang, H. edited by Bockhorn, H., D'Anna, A., Sarofim, A. F., Wang, H. Karlsruhe University Press. 2009: 467–484
  • A high-temperature chemical kinetic model of n-alkane oxidation with quantifiable uncertainties JetSurF version 1.0, (http://melchior.usc.edu/JetSurF/Version1_0 /Index.html). Sirjean, B., Dames, E., Sheen, D., A., You, X., Q., Sung, C., Holley, A., T., Wang, H. 2009
  • Synthesis of nano-phase TiO2 crystalline films over premixed stagnation flames PROCEEDINGS OF THE COMBUSTION INSTITUTE Tolmachoff, E. D., Abid, A. D., Phares, D. J., Campbell, C. S., Wang, H. 2009; 32: 1839-1845
  • Sensitivity of propagation and extinction of large hydrocarbon flames to fuel diffusion PROCEEDINGS OF THE COMBUSTION INSTITUTE Holley, A. T., You, X. Q., Dames, E., Wang, H., Egolfopoulos, F. N. 2009; 32: 1157-1163
  • Size distribution and morphology of nascent soot in premixed ethylene flames with and without benzene doping PROCEEDINGS OF THE COMBUSTION INSTITUTE ABID, A. D., Tolmachoff, E. D., Phares, D. J., Wang, H., Liu, Y., Laskin, A. 2009; 32: 681-688
  • Experimental and modeling study of laminar flame speed and non-premixed counterflow ignition of n-heptane PROCEEDINGS OF THE COMBUSTION INSTITUTE Smallbone, A. J., Liu, W., Law, C. K., You, X. Q., Wang, H. 2009; 32: 1245-1252
  • Spectral uncertainty quantification, propagation and optimization of a detailed kinetic model for ethylene combustion PROCEEDINGS OF THE COMBUSTION INSTITUTE Sheen, D. A., You, X., Wang, H., Lovas, T. 2009; 32: 535-542
  • Hygroscopic behavior of substrate-deposited particles studied by micro-FT-IR spectroscopy and complementary methods of particle analysis (vol 80, pg 633, 2008) ANALYTICAL CHEMISTRY Liu, Y., Yang, Z., Desyaterik, Y., Gassman, P. L., Wang, H., Laskin, A., Kim, S. J., Han, J. 2008; 80 (18): 7179-7179

    View details for DOI 10.1021/ac801397q

    View details for Web of Science ID 000259199400045

  • On evolution of particle size distribution functions of incipient soot in premixed ethylene-oxygen-argon flames COMBUSTION AND FLAME Abid, A. D., Heinz, N., Tolmachoff, E. D., Phares, D. J., Campbell, C. S., Wang, H. 2008; 154 (4): 775-788
  • OH production by transient plasma and mechanism of flame ignition and propagation in quiescent methane-air mixtures COMBUSTION AND FLAME Cathey, C., Cain, J., Wang, H., Gundersen, M. A., Carter, C., Ryan, M. 2008; 154 (4): 715-727
  • A numerical and analytical study of thermally driven combustion oscillations in a perfectly stirred reactor JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME Petrova, M. V., McGarry, M., Wang, H. 2008; 130 (7)

    View details for DOI 10.1115/1.2897926

    View details for Web of Science ID 000257285400001

  • Kinetics of heterogeneous reaction of CaCO3 particles with gaseous HNO3 over a wide range of humidity JOURNAL OF PHYSICAL CHEMISTRY A Liu, Y., Gibson, E. R., Cain, J. P., Wang, H., Grassian, V. H., Laskin, A. 2008; 112 (7): 1561-1571

    Abstract

    Heterogeneous reaction kinetics of gaseous nitric acid (HNO3) with calcium carbonate (CaCO3) particles was investigated using a particle-on-substrate stagnation flow reactor (PS-SFR). This technique utilizes the exposure of substrate deposited, isolated, and narrowly dispersed particles to a gas mixture of HNO3/H2O/N2, followed by microanalysis of individual reacted particles using computer-controlled scanning electron microscopy with energy-dispersive X-ray analysis (CCSEM/EDX). The first series of experiments were conducted at atmospheric pressure, room temperature and constant relative humidity (40%) with a median dry particle diameter of Dp = 0.85 mum, particle loading densities 2 x 104 /= 0.06 (x3//2). In a second series of experiments, HNO3 uptake on CaCO3 particles of the same size was examined over a wide range of relative humidity, from 10 to 80%. The net reaction probability was found to increase with increasing relative humidity, from gammanet >/= 0.003 at RH = 10% to 0.21 at 80%.

    View details for DOI 10.1021/jp076169h

    View details for Web of Science ID 000253222100024

    View details for PubMedID 18232670

  • Hygroscopic behavior of substrate-deposited particles studied by micro-FT-IR spectroscopy and complementary methods of particle analysis ANALYTICAL CHEMISTRY Liu, Y., Yang, Z., Desyaterik, Y., Gassman, P. L., Wang, H., Laskin, A. 2008; 80 (3): 633-642

    Abstract

    The application of microscopic Fourier transform infrared (micro-FT-IR) spectroscopy combined with complementary methods of particle analysis is demonstrated here for investigations of phase transitions and hygroscopic growth of micron-sized particles. The approach utilizes the exposure of substrate-deposited, isolated particles to humidified nitrogen inside a sample cell followed by micro-FT-IR spectroscopy over a selected sample area. Phase transitions of NaCl, sea salt, NaNO3, and (NH4)2SO4 particles are monitored with this technique to evaluate its utility and applicability for particle hydration studies. The results are found in excellent agreement with literature data in terms of (a) reliable and reproducible detection of deliquescence and efflorescence phase transitions, (b) quantitative measurements of water-to-solute ratios in particles as a function of relative humidity, and (c) changes in the IR spectra resulting from phase transitions and changing relative humidity. Additional methods of particle analysis are employed to complement and assist in the interpretation of particle hygroscopicity data obtained from micro-FT-IR measurements. The analytical approach and the experimental setup presented here are relatively simple, inexpensive, readily available and therefore may be practical for hydration studies of environmental particles collected in both laboratory and field studies.

    View details for DOI 10.1021/ac701638r

    View details for Web of Science ID 000252870400016

    View details for PubMedID 18179242

  • A high-temperature chemical kinetic model of n-alkane oxidation JetSurF version 0.2, (http://melchior.usc.edu/JetSurF/Version0_2 /Index.html). Sirjean, B., Dames, E., Sheen, D., A., You, X., Q., Sung, C., Holley, A., T., Wang, H. 2008
  • OH production by transient plasma and mechanism of flame ignition and propagation in quiescent methane–air mixtures Combustion and Flame Cathey, C., Cain, J., Wang, H., Gundersen, M. A., Carter, C., Ryan, M. 2008; 154 (4): 715–727
  • Kinetic study of heterogeneous reaction of deliquesced NaCl particles with gaseous HNO3 using particle-on-substrate stagnation flow reactor approach JOURNAL OF PHYSICAL CHEMISTRY A Liu, Y., Cain, J. P., Wang, H., Laskin, A. 2007; 111 (40): 10026-10043

    Abstract

    Heterogeneous reaction kinetics of gaseous nitric acid with deliquesced sodium chloride particles NaCl(aq) + HNO3(g) --> NaNO3(aq) + HCl(g) were investigated with a novel particle-on-substrate stagnation flow reactor (PS-SFR) approach under conditions, including particle size, relative humidity, and reaction time, directly relevant to the atmospheric chemistry of sea salt particles. Particles deposited onto an electron microscopy grid substrate were exposed to the reacting gas at atmospheric pressure and room temperature by impingement via a stagnation flow inside the reactor. The reactor design and choice of flow parameters were guided by computational fluid dynamics to ensure uniformity of the diffusion flux to all particles undergoing reaction. The reaction kinetics was followed by observing chloride depletion in the particles by computer-controlled scanning electron microscopy with energy-dispersive X-ray analysis (CCSEM/EDX). The validity of the current approach was examined first by conducting experiments with median dry particle diameter D(p) = 0.82 microm, 80% relative humidity, particle loading densities 4 x 10(4)

    View details for DOI 10.1021/jp072005p

    View details for Web of Science ID 000249987100003

    View details for PubMedID 17850118

  • Reaction kinetics of CO+HO2 -> products: Ab initio transition state theory study with master equation modeling JOURNAL OF PHYSICAL CHEMISTRY A You, X., Wang, H., Goos, E., Sung, C., Klippenstein, S. J. 2007; 111 (19): 4031-4042

    Abstract

    The kinetics of the reaction CO + HO2* --> CO2 + *OH was studied using a combination of ab initio electronic structure theory, transition state theory, and master equation modeling. The potential energy surface was examined with the CCSD(T) and CASPT2 methods. The classical energy barriers were found to be about 18 and 19 kcal/mol for CO + HO2* addition following the trans and cis paths, respectively. For the cis path, rate constant calculations were carried out with canonical transition state theory. For the trans path, master equation modeling was also employed to examine the pressure dependence. Special attention was paid to the hindered internal rotations of the HOOC*O adduct and transition states. The theoretical analysis shows that the overall rate coefficient is independent of pressure up to 500 atm for temperature ranging from 300 to 2500 K. On the basis of this analysis, we recommend the following rate expression for reaction R1 k(cm(3)/mol x s) = 1.57 x 10(5) T(2.18)e(-9030/T) for 300 < or = T < or = 2500 K with the uncertainty factor equal to 8, 2, and 1.7 at temperatures of 300, 1000, and 2000 K, respectively.

    View details for DOI 10.1021/jp067597a

    View details for PubMedID 17388389

  • Combustion of CO/H-2 mixtures at elevated pressures PROCEEDINGS OF THE COMBUSTION INSTITUTE Sivaramakrishnan, R., Comandini, A., Tranter, R. S., Brezinsky, K., Davis, S. G., Wang, H. 2007; 31: 429-437
  • High-temperature combustion reaction model of H2/CO/C1-C4 compounds (http://ignis.usc.edu/USC_Mech_II.htm). Wang, H., You, X., Joshi, A., V., Davis, S., G., Laskin, A., Egolfopoulos, F. 2007
  • Experimental characterization of premixed spherical ethylene/air flames under sooting conditions PROCEEDINGS OF THE COMBUSTION INSTITUTE Ibarreta, A. F., Sung, C., Wang, H. 2007; 31: 1047-1054
  • On existence of nanoparticles below the sooting threshold PROCEEDINGS OF THE COMBUSTION INSTITUTE Thierley, M., Grotheer, H., Aigner, M., Yang, Z., Abid, A., Zhao, B., Wang, H. 2007; 31: 639-647
  • A comparative study of nanoparticles in premixed flames by scanning mobility particle sizer, small angle neutron scattering, and transmission electron microscopy PROCEEDINGS OF THE COMBUSTION INSTITUTE Zhao, B., Uchikawa, K., Wang, H. 2007; 31: 851-860
  • A new approach to determining gas-particle reaction probabilities and application to the heterogeneous reaction of deliquesced sodium chloride particles with gas-phase hydroxyl radicals JOURNAL OF PHYSICAL CHEMISTRY A Laskin, A., Wang, H., Robertson, W. H., Cowin, J. P., Ezell, M. J., Finlayson-Pitts, B. J. 2006; 110 (36): 10619-10627

    Abstract

    The reaction kinetics for gaseous hydroxyl radicals (OH) with deliquesced sodium chloride particles (NaCl(aq)) were investigated using a novel experimental approach. The technique utilizes the exposure of substrate-deposited aerosol particles to reactive gases followed by chemical analysis of the particles using computer-controlled scanning electron microscopy with energy-dispersive analysis of X-rays (CCSEM/EDX) capability. Experiments were performed at room temperature and atmospheric pressure with deliquesced NaCl particles in the micron size range at 70-80% RH and with OH concentrations in the range of 1 to 7 x 10(9) cm(-3). The apparent, pseudo first-order rate constant for the reaction was determined from measurements of changes in the chloride concentration of individual particles upon reaction with OH as a function of the particle loading on the substrate. Quantitative treatment of the data using a model that incorporates both diffusion and reaction kinetics yields a lower limit to the net reaction probability of gamma(net) > or = 0.1, with an overall uncertainty of a factor of 2.

    View details for DOI 10.1021/jp063263+

    View details for Web of Science ID 000240330000012

    View details for PubMedID 16956244

  • Numerical simulation and sensitivity analysis of detailed soot particle size distribution in laminar premixed ethylene flames COMBUSTION AND FLAME Singh, J., Patterson, R. I., Kraft, M., Wang, H. 2006; 145 (1-2): 117-127
  • Master equation modeling of wide range temperature and pressure dependence of CO + OH -> products INTERNATIONAL JOURNAL OF CHEMICAL KINETICS Joshi, A. V., Wang, H. 2006; 38 (1): 57-73

    View details for DOI 10.1002/kin.20137

    View details for Web of Science ID 000234103900008

  • Methane oxidation in presence of sulfur dioxide Chemical Journal of Armenia Mantashyan, A., A., Wang, H., Avetisyan, A., M., Makaryan, E., M. 2006; 59: 9-21
  • Molecular dynamics simulation of gas-nanoparticle collisions Physics Li, Z., Wang, H. 2006: 428-431
  • Comment on "Phenomenological description of mobility of nm- and sub-nm-sized charged aerosol particles in electric field" by Shandakov, S D., Nasibulin, A G. and Kauppinen, E I JOURNAL OF AEROSOL SCIENCE Li, Z. G., Wang, H. 2006; 37 (1): 111-114
  • Thermal decomposition of ethylene oxide: Potential energy surface, master equation analysis, and detailed kinetic modeling JOURNAL OF PHYSICAL CHEMISTRY A Joshi, A., You, X. Q., Barckholtz, T. A., Wang, H. 2005; 109 (35): 8016-8027

    Abstract

    The unimolecular decomposition of ethylene oxide (oxirane) and the oxiranyl radial is examined by molecular orbital calculations, Rice-Ramsperger-Kassel-Marcus (RRKM)/Master Equation analysis, and detailed kinetic modeling of ethylene oxide pyrolysis in a single-pulse shock tube. It was found that the largest energy barrier to the decomposition of ethylene oxide lies in its initial isomerization to form acetaldehyde, and in agreement with previous studies, the isomerization was found to proceed through the *CH2CH2O* biradical. Because of the biradical nature of the transition states and intermediate, the energy barriers for the initial C-O rupture in ethylene oxide and the subsequent 1,2-H shift remain highly uncertain. An overall isomerization energy barrier of 59 +/- 2 kcal/mol was found to satisfactorily explain the available single pulse shock tube data. This barrier height is in line with the estimates made from an approximate spin-corrected procedure at the MP4/6-31+G(d) and QCISD(T)/6-31G(d) levels of theory. The dominant channel for the unimolecular decomposition of ethylene oxide was found to form CH3 + HCO at around the ambient pressure. It accounts for >90% of the total rate constant for T > 800 K. The high-pressure limit rate constant for the unimolecular decomposition of ethylene oxide was calculated as k(1,infinity)(s(-1)) = (3.74 x 10(10))T(1.298)e(-29990/T) for 600 < T < 2000 K.

    View details for DOI 10.1021/jp0516442

    View details for PubMedID 16834184

  • Extinction of premixed H-2/air flames: Chemical kinetics and molecular diffusion effects COMBUSTION AND FLAME Dong, Y. F., Holley, A. T., Andac, M. G., Egolfopouos, F. N., Davis, S. G., Middha, P., Wang, H. 2005; 142 (4): 374-387
  • Chemical species associated with the early stage of soot growth in a laminar premixed ethylene-oxygen-argon flame COMBUSTION AND FLAME Oktem, B., Tolocka, M. P., Zhao, B., Wang, H., Johnston, M. V. 2005; 142 (4): 364-373
  • Gas-nanoparticle scattering: A molecular view of momentum accommodation function PHYSICAL REVIEW LETTERS Li, Z. G., Wang, H. 2005; 95 (1)

    Abstract

    We examine the origin of diffuse gas-particle scattering by molecular dynamics simulation and show that diffuse scattering is the consequence of gas molecule trapping on the particle surface. Trapping occurs because of gas-particle interactions and the particle's ability of energy accommodation. These observations explain the transition from specular-to-diffuse scattering as the particle size becomes larger than the molecular size. We discuss the implication of this transition on the transport properties of nanometer-size particles.

    View details for DOI 10.1103/PhysRevLett.95.014502

    View details for PubMedID 16090621

  • First-principle calculation for the high-temperature diffusion coefficients of small pairs: the H-Ar Case COMBUSTION THEORY AND MODELLING Middha, P., Wang, H. 2005; 9 (2): 353-363
  • Burning velocity measurements of microgravity spherical sooting premixed flames using rainbow SCHLIEREN deflectometry COMBUSTION AND FLAME Ibarreta, A. F., Sung, C. J., Hirasawa, T., Wang, H. 2005; 140 (1-2): 93-102
  • Effect of ferrocene addition on sooting limits in laminar premixed ethylene-oxygen-argon flames COMBUSTION AND FLAME Hirasawa, T., Sung, C. J., Yang, Z. W., Joshi, A., Wang, H. 2004; 139 (4): 288-299
  • Thermophoretic force and velocity of nanoparticles in the free molecule regime (vol E 70, art no 021205, 2004) PHYSICAL REVIEW E Li, Z. G., Wang, H. 2004; 70 (6)
  • Thermal stability of flame-synthesized anatase TiO2 nanoparticles JOURNAL OF PHYSICAL CHEMISTRY B McCormick, J. R., Zhao, B., Rykov, S. A., Wang, H., Chen, J. G. 2004; 108 (45): 17398-17402

    View details for DOI 10.1021/jp046874f

    View details for Web of Science ID 000224993900021

  • Thermophoretic force and velocity of nanoparticles in the free molecule regime PHYSICAL REVIEW E Li, Z. G., Wang, H. 2004; 70 (2)

    Abstract

    We extend our previous gas-kinetic theory analysis of drag force in a uniform temperature field [Li and Wang, Phys. Rev. E. 68, 061206 (2003); 68, 061207 (2003)] to particle transport in fluids with nonuniform temperature. Formulations for drag and thermophoretic forces are proposed for nanoparticle transport in low-density gases. We specifically consider the influence of nonrigid body collision due to van der Waals or other forces between the particle and gas molecules and find that these forces play a notable role for particles a few nanometers in size. It is shown that the present formulations can be easily reduced to the classical result of Waldmann [Z. Naturforsch. A 14a, 589 (1959)] by assuming rigid body collision. From the force formulations we also obtain the equation governing the thermophoretic velocity. This velocity is found to be highly sensitive to the potential energy of interactions between gas molecules and particle, and as such Waldmann's thermophoretic velocity is not expected to be accurate for nanosized particles.

    View details for DOI 10.1103/PhysRevE.70.021205

    View details for PubMedID 15447483

  • A new approach to response surface development for detailed gas-phase and surface reaction kinetic model optimization INTERNATIONAL JOURNAL OF CHEMICAL KINETICS Davis, S. G., Mhadeshwar, A. B., Vlachos, D. G., Wang, H. 2004; 36 (2): 94-106

    View details for DOI 10.1002/kin.101277

    View details for Web of Science ID 000188088300004

  • Drag force, diffusion coefficient, and electric mobility of small particles. II. Application PHYSICAL REVIEW E Li, Z. G., Wang, H. 2003; 68 (6)

    Abstract

    We propose a generalized treatment of the drag force of a spherical particle due to its motion in a laminar fluid media. The theory is equally applicable to analysis of particle diffusion and electric mobility. The focus of the current analysis is on the motion of spherical particles in low-density gases with Knudsen number Kn>1. The treatment is based on the gas-kinetic theory analysis of drag force in the specular and diffuse scattering limits obtained in a preceding paper [Z. Li and H. Wang, Phys. Rev. E., 68, 061206 (2003)]. Our analysis considers the influence of van der Waals interactions on the momentum transfer upon collision of a gas molecule with the particle and expresses this influence in terms of an effective, reduced collision integral. This influence is shown to be significant for nanosized particles. In the present paper, the reduced collision integral values are obtained for specular and diffuse scattering, using a Lennard-Jones-type potential energy function suitable for the interactions of a gas molecule with a particle. An empirical formula for the momentum accommodation function, used to determine the effective, reduced collision integral, is obtained from available experimental data. The resulting treatment is shown to be accurate for interpreting the mobility experiments for particles as small as approximately 1 nm in radius. The treatment is subsequently extended to the entire range of the Knudsen number, following a semiempirical, gas-kinetic theory analysis. We demonstrate that the proposed formula predicts very well Millikan's oil-droplet experiments [R. A. Millikan, Philos. Mag. 34, 1 (1917); Phys. Rev. 22, 1 (1923)]. The rigorous theoretical foundation of the proposed formula in the Kn>1 limit makes the current theory far more general than the semiempirical Stokes-Cunningham formula in terms of the particle size and condition of the fluid and, therefore, more attractive than the Stokes-Cunningham formula.

    View details for DOI 10.1103/PhysRevE.68.061207

    View details for PubMedID 14754192

  • Drag force, diffusion coefficient, and electric mobility of small particles. I. Theory applicable to the free-molecule regime PHYSICAL REVIEW E Li, Z. G., Wang, H. 2003; 68 (6)

    Abstract

    The transport of small particles in the free-molecule regime is investigated on the basis of gas kinetic theory. Drag force formulations were derived in two limiting collision models-namely, specular and diffuse scattering-by considering the potential force of interactions between the particle and fluid molecules. A parametrized drag coefficient equation is proposed and accounts for the transition from specular to diffuse scattering as particle size exceeds a critical value. The resulting formulations are shown to be consistent with the Chapman-Enskog theory of molecular diffusion. In the limit of rigid-body interactions, these formulations can be simplified also to Epstein's solutions [P. S. Epstein, Phys. Rev. 23, 710 (1924)].

    View details for DOI 10.1103/PhysRevE.68.061206

    View details for PubMedID 14754191

  • Thermodynamic consistency in microkinetic development of surface reaction mechanisms JOURNAL OF PHYSICAL CHEMISTRY B Mhadeshwar, A. B., Wang, H., Vlachos, D. G. 2003; 107 (46): 12721-12733

    View details for DOI 10.1021/jp034954y

    View details for Web of Science ID 000186574500028

  • Analysis of soot nanoparticles in a laminar premixed ethylene flame by scanning mobility particle sizer AEROSOL SCIENCE AND TECHNOLOGY Zhao, B., Yang, Z. W., Wang, J. J., Johnston, M. V., Wang, H. 2003; 37 (8): 611-620
  • Measurement and numerical simulation of soot particle size distribution functions in a laminar premixed ethylene-oxygen-argon flame COMBUSTION AND FLAME Zhao, B., Yang, Z. W., Johnston, M. V., Wang, H., Wexler, A. S., Balthasar, M., Kraft, M. 2003; 133 (1-2): 173-188
  • A computational study of the thermal ionization of soot particles and its effect on their growth in laminar premixed flames COMBUSTION AND FLAME Balthasar, M., Mauss, F., Wang, H. 2002; 129 (1-2): 204-216
  • Thermodynamic functions for the cyclopentadienyl radical: The effect of Jahn-Teller distortion INTERNATIONAL JOURNAL OF CHEMICAL KINETICS Kiefer, J. H., Tranter, R. S., Wang, H., Wagner, A. F. 2001; 33 (12): 834-845
  • A new mechanism for initiation of free-radical chain reactions during high-temperature, homogeneous oxidation of unsaturated hydrocarbons: Ethylene, propyne, and allene INTERNATIONAL JOURNAL OF CHEMICAL KINETICS Wang, H. 2001; 33 (11): 698-706
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  • Detailed kinetic modeling of 1,3-butadiene oxidation at high temperatures INTERNATIONAL JOURNAL OF CHEMICAL KINETICS Laskin, A., Wang, H., Law, C. K. 2000; 32 (10): 589-614
  • Effect of transiently bound collision on binary diffusion coefficients of free radical species CHEMICAL PHYSICS LETTERS Wang, H. 2000; 325 (5-6): 661-667
  • Propene pyrolysis and oxidation kinetics in a flow reactor and laminar flames COMBUSTION AND FLAME Davis, S. G., Law, C. K., Wang, H. 1999; 119 (4): 375-399
  • Binary CF3Br- and CHF3-inert flame suppressants: Effect of temperature on the flame inhibition effectiveness of CF3Br and CHF3 COMBUSTION AND FLAME Saso, Y., Ogawa, Y., Saito, N., Wang, H. 1999; 118 (3): 489-499
  • Propyne pyrolysis in a flow reactor: An experimental, RRKM, and detailed kinetic modeling study JOURNAL OF PHYSICAL CHEMISTRY A Davis, S. G., Law, C. K., Wang, H. 1999; 103 (30): 5889-5899
  • Ignition of ethane, propane, and butane in counterflow jets of cold fuel versus hot air under variable pressures COMBUSTION AND FLAME Fotache, C. G., Wang, H., Law, C. K. 1999; 117 (4): 777-794
  • On initiation reactions of acetylene oxidation in shock tubes - A quantum mechanical and kinetic modeling study CHEMICAL PHYSICS LETTERS Laskin, A., Wang, H. 1999; 303 (1-2): 43-49
  • Binary CF3Br- and CHF3–inert flame suppressants: effect of temperature on the flame inhibition effectiveness of CF3Br and CHF3 Combustion and Flame Saso, Y., Ogawa, Y., Saito, N., Wang, H. 1999; 118 (3): 489–499
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  • Laminar burning velocities of trifluoromethane-methane mixtures: Experiment and numerical simulation COMBUSTION AND FLAME Saso, Y., Zhu, D. L., Wang, H., Law, C. K., Saito, N. 1998; 114 (3-4): 457-468
  • Experiments and numerical simulation on the laminar flame speeds of dichloromethane and trichloromethane COMBUSTION AND FLAME Leylegian, J. C., Zhu, D. L., Law, C. K., Wang, H. 1998; 114 (3-4): 285-293
  • Soot formation in counterflow ethylene diffusion flames from 1 to 2.5 atmospheres COMBUSTION AND FLAME Du, D. X., Wang, H., Law, C. K. 1998; 113 (1-2): 264-270
  • Computational study on the thermochemistry of cyclopentadiene derivatives and kinetics of cyclopentadienone thermal decomposition JOURNAL OF PHYSICAL CHEMISTRY A Wang, H., Brezinsky, K. 1998; 102 (9): 1530-1541
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  • Thermochemistry of benzvalene, dihydrobenzvalene, and cubane: A high-level computational study JOURNAL OF PHYSICAL CHEMISTRY B Wang, H., Law, C. K. 1997; 101 (17): 3400-3403
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  • On the structure of nonsooting counterflow ethylene and acetylene diffusion flames COMBUSTION AND FLAME Sun, C. J., Sung, C. J., Wang, H., Law, C. K. 1996; 107 (4): 321-335
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  • CALCULATIONS OF RATE COEFFICIENTS FOR THE CHEMICALLY ACTIVATED REACTIONS OF ACETYLENE WITH VINYLIC AND AROMATIC RADICALS JOURNAL OF PHYSICAL CHEMISTRY Wang, H., Frenklach, M. 1994; 98 (44): 11465-11489
  • PARAMETRIZATION OF CHEMICALLY-ACTIVATED REACTIONS INVOLVING ISOMERIZATION JOURNAL OF PHYSICAL CHEMISTRY Kazakov, A., Wang, H., Frenklach, M. 1994; 98 (41): 10598-10605
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  • Reduced mechanism of soot formation—Application to natural gas-fueled diesel combustion 25th Symposium (International) on Combustion Yoshihara, Y., Kazakov, A., Wang, H., Frenklach, M. 1994; 25 (1): 941-948
  • TRANSPORT-PROPERTIES OF POLYCYCLIC AROMATIC-HYDROCARBONS FOR FLAME MODELING COMBUSTION AND FLAME Wang, H., Frenklach, M. 1994; 96 (1-2): 163-170
  • THEORETICAL-STUDY OF REACTION BETWEEN PHENYLVINYLEUM ION AND ACETYLENE JOURNAL OF PHYSICAL CHEMISTRY Wang, H., Weiner, B., Frenklach, M. 1993; 97 (40): 10364-10371
  • A COMPUTATIONAL STUDY OF SOOTING LIMITS IN LAMINAR PREMIXED FLAMES OF ETHANE, ETHYLENE, AND ACETYLENE COMBUSTION AND FLAME Markatou, P., Wang, H., Frenklach, M. 1993; 93 (4): 467-482
  • ENTHALPIES OF FORMATION OF BENZENOID AROMATIC-MOLECULES AND RADICALS JOURNAL OF PHYSICAL CHEMISTRY Wang, H., Frenklach, M. 1993; 97 (15): 3867-3874
  • MODIFICATION OF TROES FALL-OFF BROADENING CHEMICAL PHYSICS LETTERS Wang, H., Frenklach, M. 1993; 205 (2-3): 271-276
  • Detailed mechanism and modeling of soot formation Advanced Combustion Science Frenklach, M., Wang, H. edited by Someya, T. Springer-Verlag, Tokyo. 1993: 168–175
  • Propyne Pyrolysis in a Flow Reactor:  An Experimental, RRKM, and Detailed Kinetic Modeling Study JOURNAL OF PHYSICAL CHEMISTRY A Davis, S. G., Law, C. K., Wang, H. 1993; 103 (30): 5889–5899

    View details for DOI 10.1021/jp982762a

  • Theoretical study of reaction between phenylvinyleum ion and acetylene JOURNAL OF PHYSICAL CHEMISTRY Wang, H., Weiner, B., Frecklach, M. 1993; 97: 10364–10371

    View details for DOI 10.1021/j100142a017

  • CYCLIC DEPOSITION OF DIAMOND - EXPERIMENTAL TESTING OF MODEL PREDICTIONS JOURNAL OF APPLIED PHYSICS Cline, B., Howard, W., Wang, H., Spear, K. E., Frenklach, M. 1992; 72 (12): 5926-5940
  • OPTIMIZATION AND ANALYSIS OF LARGE CHEMICAL KINETIC MECHANISMS USING THE SOLUTION MAPPING METHOD - COMBUSTION OF METHANE PROGRESS IN ENERGY AND COMBUSTION SCIENCE Frenklach, M., Wang, H., Rabinowitz, M. J. 1992; 18 (1): 47-73
  • DETAILED REDUCTION OF REACTION-MECHANISMS FOR FLAME MODELING COMBUSTION AND FLAME Wang, H., Frenklach, M. 1991; 87 (3-4): 365-370
  • ANALYSIS OF CYCLIC DEPOSITION OF DIAMOND JOURNAL OF APPLIED PHYSICS Wang, H., Frenklach, M. 1991; 70 (11): 7132-7136
  • A NEW MECHANISM FOR THE FORMATION OF METEORITIC KEROGEN-LIKE MATERIAL SCIENCE Morgan, W. A., Feigelson, E. D., Wang, H., Frenklach, M. 1991; 252 (5002): 109-112

    Abstract

    The carbon in ancient carbonaceous chondritic meteorites is mainly in a hydrocarbon composite similar to terrestrial kerogen, a cross-linked structure of aliphatic and aromatic hydrocarbons. Until recently, the composite has been commonly thought to have been produced in the early solar nebula by a Fischer-Tropsch-type process, involving the catalytic synthesis of hydrocarbons from carbon monoxide and hydrogen on grain surfaces. Instead, the aromatic hydrocarbons may form in gas-phase pyrolysis of simple aliphatics like acetylene and methane by a mechanism developed recently to explain formation of soot in combustion and of aromatic molecules in circumstellar envelopes. Nonequilibrium chemical kinetic calculations indicate that this mechanism can produce meteoritic aromatics if the initial concentration of simple hydrocarbons in the solar nebula was sufficiently but not unreasonably high.

    View details for Web of Science ID A1991FE95200044

    View details for PubMedID 17739082

  • DETAILED SURFACE AND GAS-PHASE CHEMICAL-KINETICS OF DIAMOND DEPOSITION PHYSICAL REVIEW B Frenklach, M., Wang, H. 1991; 43 (2): 1520-1545
  • Detailed modeling of soot particle nucleation and growth 23rd Symposium (International) on Combustion Frenklach, M., Wang, H. 1991; 23 (1): 1559–1566
  • Detailed reduction of reaction mechanisms for flame modeling Combustion and Flame Wang, H., Frenklach, M. 1991; 87 (3-4): 365-370
  • Aromatics growth beyond the first ring and the nucleation of soot particles 202nd ACS National Meeting Frenklach, M., Wang, H. 1991
  • Suggested new origin of meteoritic kerogen 177th American Astronomical Society Meeting Morgan, W. A., Feigelson, E. D., Wang, H., Frenklach, M. 1991
  • A THERMOGRAVIMETRIC STUDY OF COAL DECOMPOSITION UNDER IGNITION CONDITIONS THERMOCHIMICA ACTA SERAGELDIN, M. A., Wang, H. 1990; 171: 193-206
  • Detailed modeling of silicon powder nucleation and growth in aerosol reactors American Association for Aerosol Research 1990 Annual Meeting Wang, H., Ting, L., Frenklach, M. 1990
  • The role of hydrogen and oxygen in diamond growth SDIO/IST-ONR Diamond Technology Initiative Symposium Frenklach, M., Wang, H. 1989
  • A THERMOGRAVIMETRIC STUDY OF THE DECOMPOSITION RATE OF CHLORINATED POLYETHYLENES UNDER IGNITION CONDITIONS THERMOCHIMICA ACTA SERAGELDIN, M. A., Wang, H. 1988; 125: 247-259
  • EFFECT OF OPERATING PARAMETERS ON TIME TO DECOMPOSITION OF HIGH-DENSITY POLYETHYLENE AND CHLORINATED POLYETHYLENES THERMOCHIMICA ACTA SERAGELDIN, M. A., Wang, H. 1987; 117: 157-166
  • Effect of chlorine level on the rate of decomposition and combustion of chlorinated polyethylenes Forty-Second ACS Fall Scientific Meeting Serageldin, M. A., Wang, H. 1986
  • Variance in the value of time to decomposition of chlorinated polyethylenes—effect of operating parameters Forty-Second ACS Fall Scientific Meeting Serageldin, M. A., Wang, H. 1986
  • Automatic optimization of detailed kinetic mechanism for HCCI-engine simulation 2004 Spring Technical Meeting of the Western States of the Combustion Institute, University of California at Davis, Davis, CA Bellanca, R., Mauss, F., Wang, H. 2004
  • Propagation and extinction of premixed n-dodecane/air flames 2008 Spring Western States Section Meeting of the Combustion Institute, Los Angeles, CA Ji, C., You, X., Holley, A. T., Wang, F., Egolfopoulos, F. N., Wang, H. 2008
  • Kinetic studies of the heterogeneous reactions of NaCl particles using a novel experimental approach 2007 EGU General Assembly, European Geosciences Union, Vienna, Austria Liu, Y., Cain, J. P., Ezell, M. J., Wang, H., Finlayson-Pitts, B., Laskin, A. 2007
  • Kinetics of nascent soot oxidation in a flow reactor 8th US National Combustion Meeting Camacho, J., Wang, H. 2013
  • Optimized skeletal reaction model of butane combustion 8th US National Combustion Meeting Xin, Y. X., Wang, H., Law, C. K. 2013
  • A comparative study of the sooting properties of laminar premixed flames of C6 hydrocarbons 7th US National Combustion Meeting, Atlanta, GA Camacho, J., Lieb, S., Wang, H. 2011
  • Theory and kinetic modeling of isomerization reactions between benzylic and methylphenyl type radicals 7th US National Combustion Meeting, Atlanta, GA Dames, E., Wang, H. 2011
  • Quantitative analysis of hierarchical strategies of building combustion reaction models 2009 Fall Western States Section Meeting of the Combustion Institute, Irvine, CA Sheen, D. A., Wang, H. 2009
  • New Experimental and theoretical insights of the role of tunneling in n-alkyl radicals isomerization 6th US National Combustion Meeting, Ann Arbor, MI Sirjean, B., Wang, H., Tsang, W. 2009
  • Modeling and sensitivity analysis of TiO2 nanoparticle formation in a premixed stagnation flame 6th US National Combustion Meeting, Ann Arbor, MI Tolmachoff, E. D., Sheen, D. A., Wang, H. 2009
  • Detailed soot particle size distributions and modeling study of ethylene/oxygen/argon flames doped with benzene 2007 Fall Meeting of the Western States Section of the Combustion Institute, Livermore, CA Abid, A. D., Wang, H. 2007
  • Prospect of size distribution and chemical composition measurements of nascent soot formed in premixed flames International Workshop on Combustion-Generated Fine Carbon Particles, Anacapri, Italy Wang, H., Abid, A. D. 2007
  • A detailed study of CO/H2 oxidation kinetics in synthesis-gas/air premixed flames 2005 Fall Meeting of the Western States Section of the Combustion Institute, Stanford, CA Sheen, D. A., Kinslow, R., Holley, A. T., You, X., Wang, H., Egolfopoulos, F. N. 2005
  • Determination of laminar flame speeds using digital particle image velocimetry 2nd Joint Meeting of the U.S. Sections of The Combustion Institute, Berkeley, CA Hirasawa, T., Sung, C. J., Yang, Z., Wang, H., Law, C. K. 2001
  • Development of a detailed chemical reaction mechanism of propane oxidation at high temperature 1999 Fall Technical Meeting, the Western States Section of the Combustion Institute, Irvine, CA Qin, Z., Lissianski, V., Yang, H., Gardiner, Jr., W. C., Davis, S. G., Wang, H. 1999
  • Spatially-resolved measurement and computation of soot particle size distribution function in a laminar premixed ethylene flame 2002 Annual Meeting of American Institute of Chemical Engineers Zhao, B., Yang, Z., Johnston, M. V., Wang, H., Wexler, A. S., Balthasar, M., Kraft, M. 2002
  • Study of particle inception near and below sooting limit by scanning mobility particle sizer 2003 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Pennsylvania State University, University Park, PA Yang, Z., Zhao, B., Wang, H. 2003
  • Ab-initio study of the C6H5O + H reaction: Viability of the CO + C5H6 channel 2003 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Pennsylvania State University, University Park, PA Joshi, A. V., Davis, S. G., Wang, H. 2003
  • A numerical and analytical study of combustion oscillation in a perfectly stirred reactor 2nd Joint Meeting of the U.S. Sections of the Combustion Institute, Berkeley, CA Petrova, M. V., McGarry, M. T., Wang, H. 2001
  • The pyrolysis and oxidation of propene in flow reactor 1st Joint Meeting of the U.S. Sections of The Combustion Institute, Washington, DC Davis, S. G., Law, C. K., Wang, H. 1999
  • On thermochemical properties of PAH species: Structure of jet fuels V 216th ACS National Meeting, Dallas, TX Wang, H. 1998
  • On the oxidation kinetics of premixed benzene/air and toluene/air flames 1995 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Worcester, MA Davis, S. G., Wang, H., Brezinsky, K., Law, C. K. 1995
  • Degradation and ignition of chlorinated polyethylenes by TGA 1986 Workshop and Symposium of the National Conference of Standards Laboratories Serageldin, M. A., Wang, H. 1986
  • Chemical libraries: Multiscale modeling NSF Workshop on Cyber-Based Combustion Science Wang, H. 2006
  • Sodium nitrate particles: physical and chemical properties during hydration and dehydration. Implications for aged sea salt aerosols 2004 Annual AAAR Meeting Hoffman, R. C., Finlayson-Pitts, B. J., Yang, Z., Wang, H., Gassman, P. L., Laskin, A. 2004
  • Chemical kinetic uncertainty minimization through laminar flame speed measurements of C1-C­3 hydrocarbon/air mixtures. 8th US National Combustion Meeting Park, O., Veloo, P. S., Sheen, D., Egolfopoulos, F. N., Wang, H. 2013
  • Modeling the pressure dependence of H2/O2/diluent mass burning rates 7th US National Combustion Meeting, Atlanta, GA Sheen, D. A., Wang, H. 2011
  • Combustion kinetic modeling using multispecies time-histories in shock-tube oxidation of heptane 7th US National Combustion Meeting, Atlanta, GA Sheen, D. A., Wang, H. 2011
  • Necessity of nonlinear terms in polynomial chaos expansions for uncertainty propagation 6th US National Combustion Meeting, Ann Arbor, MI Sheen, D. A., Wang, H. 2009
  • Comparison of gas sensing properties of TiO2 nanoparticles synthesized in a premixed stagnation flame method and the Aerosil® process 6th US National Combustion Meeting, Ann Arbor, MI Tolmachoff, E. D., Wang, H. 2009
  • Study on the presence of nanoparticles in near-sooting premixed ethylene-air flat flames 2008 Spring Western States Section Meeting of the Combustion Institute, Los Angeles, CA Abid, A. D., Wang, H. 2008
  • Flame synthesized, narrowly distributed TiO2 nanoparticles ― synthesis method, characterization and applications 231st ACS National Meeting, Atlanta, GA Zhao, B., Uchikawa, K., Shibata, A., Tolmachoff, E., Ekweghariji, S., Prakash, G. K., Wang, H. 2006
  • Bimodal particle size distributions and morphology of soot in a laminar premixed ethylene flame 2005 Fall Meeting of the Western States Section of the Combustion Institute, Stanford, CA Zhao, B., Uchikawa, K., Wang, H. 2005
  • Detailed kinetic modeling of benzene and toluene combustion 2nd Joint Meeting of the U.S. Sections of the Combustion Institute, Berkeley, CA Djurisic, Z. M., Joshi, A. V., Wang, H. 2001
  • On branched-chain mechanism of hydrogen-chlorine reactions: experimental and kinetic modeling study of laminar flame speeds of H2/Cl2/N2 mixtures 1999 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Raleigh, NC Leylegian, J. C., Law, C. K., Wang, H. 1999
  • Chain reaction initiation in homogeneous oxidation of ethylene, propyne, and 1,3-butadiene 2nd Joint Meeting of the U.S. Sections of the Combustion Institute, Berkeley, CA Wang, H. 2001
  • Simulation of soot particle thermal ionization in laminar premixed flames 1st Biennial Meeting of the Scandinavian-Nordic Section of the Combustion Institute, Gothenburg, Sweden Balthasar, M., Mauss, F., Wang, H. 2001
  • On initiation reaction of acetylene oxidation in shock tubes. A kinetic modeling and quantum mechanical study 1st Joint Meeting of the U.S. Sections of The Combustion Institute, Washington, DC Laskin, A., Wang, H. 1999
  • On the flame structures of counterflow ethylene/oxygen/nitrogen diffusion flames Joint Technical Meeting of the Central States/Western States/Mexican National Sections of the Combustion Institute and American Flame Research Committee, San Antonio, TX Sun, C. J., Sung, C. J., Law, C. K. 1995
  • A computational study on the thermochemistry of cyclopentadiene derivatives 1997 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, New Haven, CT Wang, H. 1997
  • Diffusion coefficient of hydrogen atom for combustion modeling 1996 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Hilton Head, SC Wang, H., Law, C. K. 1996
  • Detailed and reduced chemical models for natural gas combustion 3rd Asian-Pacific International Symposium on Combustion and Energy Utilization, Hong Kong, China Frenklach, M., Wang, H., Kazakov, A., Bowman, C. T., Hanson, R. K., Davidson, D. F., Smith, G. P., Golden, D. M., Gardiner, Jr., W. C., Lissianski, V. 1995
  • detailed oxidation kinetics and flame inhibition effects of chloromethane Joint Technical Meeting of the Central States/Western States/Mexican National Sections of the Combustion Institute and American Flame Research Committee, San Antonio, TX Wang, H., Hahn, T. O., Sung, C., Law, C. K. 1995
  • Organic functionalities in aircraft and laboratory generated soot studied by micro-FTIR spectroscopy 29th AAAR Annual Conference, Portland, OR Cain, J. P., Spicer, C. W., Holdren, M. W., Cowen, K. A., Wang, H., Laskin, A. 2010
  • Record photoefficiency achieved for dye sensitized solar cells using mesoporous titania layer produced by flames AAAR 28th Annual Conference, Minneapolis, MN Memarzadeh, S., Phares, D. J., Wang, H. 2009
  • Enhanced OH chemiluminescent emission from transient plasma ignited methane-air mixtures relative to spark ignition 2007 IEEE Pulsed Power and Plasma Science Conference, Albuquerque, NM Cathey, C. D., Kuthi, A., Wang, H., Gundersen, M. A. 2007
  • Reaction kinetics of benzene + O(3P) → products: experimental and theoretical study poster at 31st International Symposium on Combustion, Montreal, Canada Taatjes, C. A., Osborn, D. L., Selby, T. M., Meloni, G. K., Trevitt, A. J., Sirjean, B., Dames, E., Wang, H. 2008
  • Shock tube pyrolysis of 1,2-diiodobenzene-kinetics of H atom production in high-temperature thermal decomposition of ortho-benzyne poster at 6th International Conference of Chemical Kinetics, National Institute of Standards and Technology, Gaithersburg, MD Chen, X., You, X., Braun-Unkhoff, B., Naumann, C., Frank, P., Just, T., Wang, H. 2005
  • A new experimental approach for kinetic studies of aerosol heterogeneous reactions AAAR 2005 Annual Conference, Austin, TX Laskin, A., Wang, H. 2005
  • Gas-nanoparticle scattering: a molecular view of momentum accommodation function AAAR 2005 Annual Conference, Austin, TX Li, Z., Wang, H. 2005
  • A kinetic study of the heterogeneous reaction of CaCO3 particles with gaseous HNO3 AAAR 2007 Annual Conference, Reno, NV Liu, Y., Gibson, E. R., Cain, J. P., Grassian, V. H., Wang, H., Laskin, A. 2007
  • Simulation of particle ionization and its effect on soot formation in flames Conference on Population Balance Modeling of Particulate Systems, Kailua-Kona, HI Mauss, F., Balthasar, M., Wang, H. 2000
  • A kinetic study of the heterogeneous reaction of deliquesced sodium chloride particles with hydroxyl radicals 2006 International Aerosol Conference, St. Paul, MN Laskin, A., Wang, H., Robertson, W. H., Cowin, J. P., Ezell, M. J., Finlayson-Pitts, B. J. 2006
  • On unimolecular decomposition of the phenyl radical poster paper presented at the Twenty-Seventh International Symposium on Combustion, Boulder, CO Wang, H., Moriaty, N. W., Frenklach, M. 1998
  • Optimized chemical model for natural gas combustion International Gas Research Conference (IGRC ‘95, Cannes, France) Gardiner, Jr., W., Lissianski, V., Frenklach, M., Wang, H., Bowman, C. T., Hanson, R. K., Davidson, D. F., Smith, G., Golden, D. M. 1995
  • Internal structure, hygroscopic and reactive properties of nacl particles processed with methanesulfonic acid AirUCI Annual Workshop Liu, Y., Desyaterik, Y., Minofar, B., Jungwirth, P., Wang, H., Laskin, A. 2008
  • Pressure dependence in the competitive thermal isomerization/ decomposition of the cyclohexyl radical poster paper presented at 1st High-Pressure Flame Chemistry Workshop Dames, E., Wang, H. 2012
  • Development of an integrated workbench for gas-phase thermodynamics, kinetics, and reaction modeling Work-in-Progress paper, 28th International Symposium on Combustion, Edinburgh, Scotland McKinnon, J. T., Dean, A. M., Duer, J., Frisch, M., Grenda, J. M., Klipstein, D., Ko, G., Mallard, G., McRae, G. J., Meeks, E., Nimlos, M. N., Petersson, G., Wang, H. 2000
  • Probing deliquescence, efflorescence and hygroscopic growth of aerosols using micro-FTIR spectroscopy Fall 2006 Meeting of the American Geophysical Union (AGU) Liu, Y., Yang, Z., Gassman, P. L., Wang, H., Laskin, A. 2006
  • Multi-channel chemically activated reactions: Comparison of Troe’s weak collision model and solution of collisional energy transfer by Monte Carlo method 227th ACS National Meeting Joshi, A. V., Davis, S. G., Wang, H. 2004
  • Reduction of detailed chemical models with controlled uncertainty 2nd International Workshop on Model Reduction in Reacting Flows, Center for Applied Mathematics Sheen, D. A., Løvås, T., Wang, H. 2009
  • Experimental and computational study of sooting limits of ferrocene-doped ethylene/oxygen/argon premixed flames poster paper presented at the 2002 Annual AAAR Meeting Hirasawa, T., Sung, C. J., Yang, Z., Wang, H. 2002
  • The role of cracking in the combustion of JP-8 2007 Fall Meeting of the Western States Section of the Combustion Institute, Livermore, CA You, X., Egolfopoulos, F. N., Wang, H. 2007
  • Flame synthesis of nano-phase TiO2 crystalline films 5th Joint States Section of the Combustion Institute Meeting, San Diego, CA Tolmachoff, E. D., Garcia, G., Phares, D. J., Campbell, C. S., Wang, H. 2007
  • Bioengineered fuel cells: optimization via genetic approaches and multi-scale modeling PowerMEMS 2006 Workshop on Micro and Nanotechnology for Power Generation and Energy Conversion Applications, Berkeley, CA Bretschger, O., Finkel, S., Iverson, L., Kim, B., Mansfeld, F., Nealson, K., Prakash, S., Ronney, P., Wang, H., LŸttge, A. 2006
  • Burning velocities of sooting premixed ethylene/air flames 4th Joint Meeting of the U.S. Sections of the Combustion Institute, Drexel University, Philadelphia, PA Ibarreta, A. F., Sung, C. J., Wang, H. 2005
  • Computational study of the oxidation of ethylene oxide: potential energy surface, master equation analysis and detailed kinetic modeling 4th Joint Meeting of the U.S. Sections of the Combustion Institute, Drexel University, Philadelphia, PA Joshi, A., You, X., Barckholtz, T., Wang, H., 2005
  • Bimodal particle size distribution and morphology of soot in a laminar premixed ethylene flame 4th Joint Meeting of the U.S. Sections of the Combustion Institute, Drexel University, Philadelphia, PA Zhao, B., Uchikawa, K., Wang, H. 2005
  • A theoretical study of the reactions on the C2H3O potential energy surfaces: kinetics of C2H2+OH → products and the unimolecular dissociation of the vinoxy radical 5th International Conference on Chemical Kinetics, Gaithersburg, MD Davis, S. G., Wang, H., Tsang, W. 2001
  • Multi-channel chemically activated reactions: Comparison of Troe’s weak collision model and exact solution of the master equation by monte carlo method 2004 Spring Technical Meeting of the Western States of the Combustion Institute, University of California at Davis, Davis, CA Joshi, A. V., Wang, H., Davis, S. G. 2004
  • Effect of flame temperature on particle size distribution functions of soot in laminar premixed ethylene flames 3rd Joint Meeting of the US Sections of the Combustion Institute, Chicago, IL Yang, Z., Zhao, B., Wang, H. 2003
  • An optimized kinetics model for natural gas combustion poster paper presented at the 25th Symposium (International) on Combustion, Irvine, CA Frenklach, M., Wang, H., Bowman, C. T., Hanson, R. K., Smith, G. P., Golden, D. M., Gardiner, Jr., W. C., Lissianski, V. 1994
  • Experimental and numerical studies of flame extinction: validation of chemical kinetics 3rd Joint Meeting of the US Sections of the Combustion Institute, Chicago, IL Dong, Y., Andac, G. M., Egolfopoulos, F. N., Davis, S. G., Wang, H. 2003
  • A comprehensive mechanism of C2Hx and C3Hx fuel combustion 1999 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Raleigh, NC Wang, H., Laskin, A., Djurisic, Z. M., Law, C. K., Davis, S. G., Zhu, D. L. 1999
  • Binary CF3Br- and CHF3-inert flame suppressants and influence of flame temperature on inhibition effectiveness of CF3Br and CHF3 1st Joint Meeting of the U.S. Sections of The Combustion Institute, Washington, DC Saso, Y., Ogawa, Y., Saito, N., Wang, H. 1999
  • Soot formation in counterflow diffusion flames containing chloromethane 1st Joint Meeting of the U.S. Sections of The Combustion Institute, Washington, DC Leylegian, J. C., Law, C. K., Wang, H. 1999
  • A theoretical study of the chemically activated reactions on the C3H5 potential energy surface 1st Joint Meeting of the U.S. Sections of The Combustion Institute, Washington, DC Davis, S. G., Law, C. K., Wang, H. 1999
  • Laminar flame speeds and oxidation kinetics of dichloromethane and trichloromethane 1996 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Hilton Head, SC Leylegian, J. C., Wang, H., Zhu, D. L., Law, C. K. 1996
  • A computational study of sooting limits in laminar premixed ethane/oxygen/nitrogen flames 1991 Fall Technical Meeting of the Eastern States Section of The Combustion Institute Markatou, P., Wang, H., Frenklach, M. 1991
  • Uncertainty estimation of reduced chemical models 13th International Conference on Numerical Combustion, Corfu, Greece Lovas, T., Shaw, R. C., Brownbridge, G., Mosbach, S., Kraft, M., Sheen, D. A., Wang, H. 2011
  • Nanocatalysts in Propulsion: Mechanisms and Optimization 2010 DDRE MURI Conference, Arlington, VA Wang, H. 2010
  • Predicting the effects of fuel composition and flame structure on soot generation 2009 SERDP Symposium, Washington DC Shaddix, C. R., Zhang, J., Schefer, R. W., Pickett, L. M., Kook, S., Doom, J., Oefelein, J. C., Abid, A., Camacho, J., Wang, H. 2009
  • A kinetic study of the heterogeneous reaction of deliquesced NaCl particles with gaseous HNO3 AAAR 2007 Annual Conference, Reno, NV Liu, Y., Cain, J., Wang, H., Wang, A. 2007
  • Reaction kinetics of CO+HO2products: ab initio study and master equation modeling Work-in-Progress poster, 31st International Symposium on Combustion, Heidelberg, Germany You, X., Goos, E., Sung, C. J., Wang, H. 2006
  • Soluble nano catalysts to improve methane combustion 4th Annual NanoMaterials for Defense Applications Symposium: Accelerating the Transition, Virginia Beach, VA Wickham, D., Cook, R., Engel, J., Nabity, J., Yu, J., Wang, H. 2006
  • A self-consistent gas-kinetic theory of nanoparticle transport AAAR 2005 Annual Conference, Austin, TX Wang, H., Phares, D., Campbell, C. S., Li, Z. 2005
  • Burning velocity measurements of microgravity spherical sooting premixed flames using rainbow Schlieren deflectometry poster at 30th International Symposium on Combustion, Chicago, IL Ibarreta, A. F., Sung, C. J., Hirasawa, T., Wang, H. 2004
  • Ab Initio potential energy and binary diffusion coefficient of H-Ar poster paper presented at 29th International Symposium on Combustion, Sapporo, Japan Middha, P., Wang, H. 2002
  • A new approach to response surface development for detailed combustion chemistry model development and optimization poster paper 29th International Symposium on Combustion, Sapporo, Japan Davis, S. G., Wang, H. 2002
  • Numerical simulation of thermo-ionization of soot particles and the effect of thermo-ionization on soot growth in laminar premixed flames Work-in-Progress paper, 28th International Symposium on Combustion, Edinburgh, Scotland Balthasar, M., Mauss, F., Wang, H. 2000
  • Towards a predictive combustion chemistry model–Uncertainty Propagation and Minimization 1st High-Pressure Flame Chemistry Workshop Wang, H. 2012
  • Experimental and numerical studies on methane ignition catalyzed by in situ generated palladium nanoparticles in a laminar flow reactor 6th US National Combustion Meeting, Ann Arbor, MI Shimizu, T., Abid, A., Wang, H., Nabity, J., Engel, J., Yu, J., Wickham, D., Devener, B. V., Anderson, S. L. 2009
  • Virtual organization of combustion kineticists 55th JANNAF Propulsion Meeting Knyazev, V. D., Smith, G. P., Wang, H. 2008
  • Fundamental kinetics and transport problems in hydrogen oxidation NSF Workshop on Research Frontiers for Combustion in the Hydrogen Economy, NSF Headquarters Wang, H. 2006
  • Process informatics for chemical reaction systems 232nd ACS National Meeting Frenklach, M., Packard, A., Djurisic, Z. M., Feeley, R., Russi, T., Golden, D. M., Gupta, A., Bowman, C. T., Green, Jr., W. H., McRae, G. J., Smith, G. J., Wang, H., Westmoreland, P. R., Allison, T. C., Frey, J. G., Pilling, M. J. 2006
  • Sodium nitrate particles: physical and chemical properties during hydration and dehydration. Implications for aged sea salt aerosols 2004 American Geophysical Union Meeting Laskin, A., Hoffman, R. C., Finlayson-Pitts, B. J., Yang, Z., Wang, H. 2004
  • Thermophoretic force and velocity of nanoparticles in free molecule regime 2004 Annual AAAR Meeting Li, Z., Wang, H. 2004
  • Automatic optimization of detailed kinetic mechanism for HCCI-engine simulation 227th ACS National Meeting Bellanca, R., Mauss, F., Wang, H. 2004
  • Particle size distribution of soot formed in a laminar premixed ethylene flame 2002 Annual AAAR Meeting Zhao, B., Yang, Z., Johnston, M. V., Wang, H., Wexler, A., Balthasar, M., Kraft, M. 2002
  • The effect of gas composition on diamond film growth during chemical vapor deposition 201st National American Chemical Society Meeting Wu, C. H., Tamor, M. A., Potter, T. J., Frenklach, M., Wang, H. 1991
  • Detailed mechanism reduction for flame modeling 1990 Fall Technical Meeting of the Eastern States Section of the Combustion Institute Wang, H., Frenklach, M. 1990
  • Catalytic oxidation of alkanes over palladium oxide 8th US National Combustion Meeting Xin, Y. X., Wang, H., Law, C. K. 2013
  • Experimental and modeling study the oxidation of isobutane and isobutene 7th US National Combustion Meeting, Atlanta, GA Yang, B., Wang, H., Hansen, N., Skeen, S., Cool, A. A., 2011
  • Dependence of TiO2 crystal phase on flame synthesis conditions 7th US National Combustion Meeting, Atlanta, GA Memarzadeh, S., Thompson, C., Wang, H. 2011
  • Dye sensitized solar cells fabricated by flame stabilized on a rotating surface 7th US National Combustion Meeting, Atlanta, GA Memarzadeh, S., Phares, D. J., Wang, H. 2011
  • Numerical simulation on inhibition effectiveness of halocarbons and Inert Gas Mixtures: Effects of Flame Temperature and Water Vapor 35th Japanese Symposium on Combustion, Tokyo, Japan Saso, Y., Saito, N., Wang, H. 1997
  • Combustion kinetic modeling using multispecies time-histories in shock-tube oxidation of n-dodecane 7th US National Combustion Meeting, Atlanta, GA Tangko, R., Sheen, D. A., Wang, H. 2011
  • Combustion studies of energetic liquid materials Ninth ONR Propulsion Meeting, Alexandria, VA Law, C. K., Sung, C. J., Wang, H., Zhu, D. L. edited by Roy, G. D., Kailathnanth, K. 1996
  • Kinetic modeling of one-ring aromatic compounds Spring Technical Meeting of the Western States Sections of the Combustion Institute, University of Colorado Dames, E., Wang, H. 2010
  • Dye sensitized solar cells fabricated by flame stabilized on a rotating surface 2009 Fall Western States Section Meeting of the Combustion Institute, Irvine, CA Memarzadeh, S., Phares, D. J., Wang, H. 2009
  • The oxidation of methane at elevated pressures: experiments and modeling 1993 Joint Technical Meeting of the Central and Eastern States Sections of the Combustion Institute, Hunter, T. B., Litzinger, T. A., Wang, H., Frenklach, M. 1993
  • Ultra sensitive nanoporous TiO2 gas sensing films synthesized in a premixed stagnation flame 2009 Fall Western States Section Meeting of the Combustion Institute, Irvine, CA Tolmachoff, E. D., Wang, H. 2009
  • Effect of fuel composition and flame structure on soot generation in turbulent non-premixed flames 2008 SERDP Symposium, Washington DC Shaddix, C. R., Wang, H., Pickett, M. M., Oefelein, J. C., Zhang, J., Williams, T. C., Schefer, R. W. 2008
  • Products of the benzene + O(3p) reaction: Experimental and theoretical study 6th US National Combustion Meeting, Ann Arbor, MI Taatjes, C. A., Osborn, D. L., Selby, T. M., Meloni, G., Trevitt, A. J., Sirjean, B., Dames, E., Wang, H. 2009
  • Propagation and extinction of m-xylene/air, and m-xylene/n-dodecane/air flames 6th US National Combustion Meeting, Ann Arbor, MI Moheet, A., Ji, C., Wang, Y. L., Wang, H., Egolfopoulos, F. N. 2009
  • Relations between particle size distribution function and morphology of soot formed in atmospheric-pressure, premixed ethylene-oxygen-argon flames 5th Joint States Section of the Combustion Institute Meeting, San Diego, CA Abid, A. D., Heinz, N. A., Tolmachoff, E. D., Phares, D. J., Wang, H. 2007
  • Experimental and numerical studies of extinction of premixed lean H2/air flames 2004 Spring Technical Meeting of the Western States of the Combustion Institute, University of California at Davis, Davis, CA Dong, Y., Holley, A. T., Andac, M. G., Egolfopoulos, F. N., Davis, S. G., Middha, P., Wang, H. 2004
  • Flame synthesis of titanium oxide nanoparticles in Chemical and Physical Pro2003 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Pennsylvania State University, University Park, PA Zhao, B., McCormick, J. R., Bulanin, K., Ni, C., Chen, J., Wang, H. 2003
  • A comprehensive and optimized kinetic model of H2/CO combustion 3rd Joint Meeting of the US Sections of the Combustion Institute, Chicago, IL Davis, S. G., Joshi, A., Wang, H., Egolfopoulos, F. N. 2003
  • Molecular dynamics study of radical diffusion coefficients 1st Joint Meeting of the U.S. Sections of The Combustion Institute, Washington, DC Wang, H. 1999
  • Modeling of NOx formation in natural gas fueled diesel combustion 3rd International Symposium on COMODIA 94, The Japanese Society of Mechanical Engineers, Yokohama, Japan Yoshihara, Y., Wang, H., Frenklach, M. 1994
  • On the Troe formula for unimolecular reaction rate coefficient 1993 Joint Technical Meeting of the Central and Eastern States Sections of the Combustion Institute Wang, H., Frencklach, M. 1993
  • Overview of research at the CEFRC on chemical kinetics and reaction mechanisms of foundational fuels Multi Agency Coordination Committee for Combustion Research (MACCCR), 4th Annual Fuels Research Review Wang, H. 2011
  • Mesoporous TiO2 thin films prepared by Flame Stabilized on a Rotating Surface (FSRS) method - Application to dye-sensitized solar cells Materials Research Society (MRS) Spring Meeting Memarzadeh, S., Walker, J., Phares, D. J., Wang, H. 2011
  • Combustion synthesis of ultrafine anatase TiO2 nanoparticles in a premixed stagnation flame poster at 27th Annual General Meeting of the International Fine Particle Research Institute (IFPRI) Zhao, B., Uchikawa, K., Wang, H. 2006
  • Height and phase mode images of soot using AFM 8th US National Combustion Meeting Lieb, S., Wang, H. 2013
  • Catalytic methane oxidation over palladium nanoparticles 7th US National Combustion Meeting, Atlanta, GA Shimizu, T., Wang, H., Perez, J. P., Anderson, S. L. 2011
  • Formation of soot in laminar premixed n-butanol and isobutanol flames 7th US National Combustion Meeting, Atlanta, GA Camacho, J., Lieb, S., Wang, H. 2011
  • Theory and kinetic modeling of initiation reactions for cyclohexane and several of its mono-alkylated derivatives 7th US National Combustion Meeting, Atlanta GA Dames, E., Krylov, A., Wang, H. 2011
  • Burner-stabilized stagnation flow flame approach to probe soot size distributions 6th US National Combustion Meeting, Ann Arbor, MI Abid, A., Camacho, J., Sheen, D. A., Wang, H., 2009
  • Molecule/particle beams detection by fast superconducting bolometers 7th US National Combustion Meeting, Atlanta, GA Gao, S., Phares, D. J., Wang, H. 2011
  • Simplified chemical kinetic models for high-temperature oxidation of C1 to C12 n­alkanes 6th US National Combustion Meeting, Ann Arbor, MI Sirjean, B., Dames, E., Sheen, D. A., Wang, H. 2009
  • Transport theory of small spherical particles - how does a molecule become a ‘particle'? Interdisciplinary Transport Phenomena V: Fluid, Thermal, Biological, Materials and Space Sciences, Bansko, Bulgaria Wang, H. 2007
  • Reaction kinetics of CO+HO2 → products: ab initio transition state theory study with master equation modeling 5th Joint States Section of the Combustion Institute Meeting, San Diego, CA You, X., Wang, H., Goos, E., Sung, C. J., Klippenstein, S. J. 2007
  • Ab-initio study of the C6H6 + O Reaction: Viability of the CO + C5H6 channel 19th Annual Symposium of the Israeli Section of the Combustion Institute, Jerusalem Joshi, A., Davis, S., Wang, H. 2003
  • A small-angle neutron scattering study of soot formation in laminar premixed ethylene flames 2001 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Hilton Head, SC Wyslouzil, B., Streletzky, K., Zhao, B., Wang, H. 2001
  • Detailed kinetic modeling of benzene and toluene combustion 1999 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Raleigh, NC Wang, H., Djurisic, Z. M. 1999
  • Laminar burning velocities and oxidation kinetics of methane-trifluoromethane-air premixed flames 34th Japanese Symposium on Combustion, Hiroshima, Japan Saso, Y., Saito, N., Zhu, D. L., Wang, H., Law, C. K. 1996
  • On the structure of non-sooting counterflow acetylene diffusion flames 1995 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Worcester, MA Sun, C. J., Wang, H., Sung, C. J., Law, C. K. 1995
  • PrIMe: Subgroup operation for collaborative evaluation: Virtual Organization of Combustion Kineticists poster at 31st International Symposium on Combustion, Montreal, Canada Smith, G. P., Knyazev, V. D., You, X., Wang, H., 2008
  • Evolution of particle size distribution function of nascent soot in premixed ethylene flames AAAR 2007 Annual Conference, Reno, NV Abid, A. D., Heinz, N., Tolmachoff, E. D., Phares, D. J., Campbell, C. S., Wang, H. 2007
  • Bimodal particle size distributions and morphology of soot in a relatively sooty laminar premixed ethylene flame AAAR 2005 Annual Conference, Austin, TX Zhao, B., Uchikawa, K., Wang, H., Johnston, M. V. 2005
  • Probing hygroscopic properties of atmospheric particles using complementary methods of micro FTIR spectroscopy and micro analyses AAAR 2007 Annual Conference, Reno, NV Liu, Y., Yang, Z., Desyaterik, Y., Gassman, P. L., Wang, H., Laskin, A. 2007
  • SMPS analysis and detailed numerical simulation of soot particle size distribution function in a laminar premixed ethylene flame poster paper at 29th International Symposium on Combustion, Sapporo, Japan Zhao, B., Yang, Z., Johnston, M. V., Wang, H., Wexler, A. S., Balthasar, M., Kraft, M. 2002
  • Chemical transformation of CaCO3 particles by heterogeneous reaction with HNO3: Kinetic measurements over a wide range of humidity 2007 Fall Meeting of the American Geophysical Union Liu, Y., Gibson, E. R., Cain, J. P., Wang, H., Grassian, V. H., Laskin, A. 2007
  • A kinetic study of the heterogeneous reaction of deliquesced NaCl particles with gaseous HNO3 using novel experimental approach Fall 2006 Meeting of the American Geophysical Union (AGU) Liu, Y., Cain, J. P., Wang, H., Laskin, A. 2006
  • Combustion synthesis of ultrafine anatase TiO2 nanoparticles in a premixed stagnation flame 2004 Annual AAAR Meeting Zhao, B., Uchikawa, K., McCormick, J. R., Ni, C. Y., Chen, J. G., Wang, H. 2004
  • Ab initio potential energy and binary diffusion coefficient of H-Ar 2002 Annual Meeting of American Institute of Chemical Engineers Middha, P., Wang, H. 2002
  • Reaction mechanisms and H-atom transport issues in modeling lean hydrogen combustion 2008 SIAM International Conference on Numerical Combustion, Montery, CA Wang, H. 2008
  • reporting experimental data for the prime depository: rule-based system with emphasis on uncertainty Work-in-Progress poster, 31st International Symposium on Combustion, Heidelberg, Germany Djurisic, Z. M., Frenklach, M., Golden, D. M., Gupta, A., Davidson, D. F., Wang, H. 2006
  • Virtual organization of combustion kineticists poster paper presented at the NSF Workshop on Building Effective Virtual Organizations Wang, H., Smith, G. P., Knyazev, V. D. 2008
  • Toward a comprehensive understanding of combustion chemistry and detailed reaction modeling of combusting flows 2002 Annual Meeting of American Institute of Chemical Engineers Wang, H. 2002
  • Spectral optimization and uncertainty quantification of detailed kinetic model for ethylene combustion 2007 Fall Meeting of the Western States Section of the Combustion Institute, Livermore, CA Sheen, D. A., You, X., Wang, H. 2007
  • Laminar flame speeds of soot-forming flames 6th International Microgravity Combustion Workshop, Cleveland, OH Sung, C. J., Wang, H. 2001
  • Thermodynamic functions for the cyclopentadienyl radical: the effect of Jahn-Teller distortion 2nd Joint Meeting of the U.S. Sections of The Combustion Institute, Berkeley, CA Kiefer, J. H., Tranter, R. S., Wang, H., Wagner, A. F. 2001
  • Effects of reaction kinetics and heat transfer on combustion oscillation of methane in perfectly stirred reactor 1999 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Raleigh, NC McGarry, M. T., Wang, H. 1999
  • Spectral optimization and uncertainty propagation in detailed kinetic modeling of hydrocarbon combustion 55th JANNAF Propulsion Meeting Wang, H., Sheen, D. A., You, X., Lovas, T. 2008
  • An investigation of size distribution functions of soot particles in laminar premixed flames 2002 Autumn Research Meeting of the British Section of the Combustion Institute Zhao, B., Yang, Z., Johnston, M. V., Wang, H., Wexler, A. S., Balthasar, M., Kraft, M. 2002
  • On the unimolecular decomposition of the phenyl radical poster paper presented at the 215th National Meeting of the American Chemical Society Wang, H., Moriaty, N. W., Frenklach, M. 1998
  • Modeling of PAH profiles in premixed flames 1989 Fall Technical Meeting, The Eastern States Section, the Combustion Institute Wang, H., Frenklach, M. 1989
  • Scattering of noble gas molecules and transition metal nanoparticles: A molecular dynamics study 7th US National Combustion Meeting, Atlanta, GA Koumlis, S., Wang, H. 2011
  • Particle size distribution functions of soot formed in laminar premixed n-dodecane-oxygen-argon flames 6th US National Combustion Meeting, Ann Arbor, MI Abid, A., Camacho, J., Sheen, D. A., Wang, H. 2009
  • Ignition delay in combustion of ethylene: A shock tube study 2009 Eastern States Section Meeting of the Combustion Institute, College Park, Maryland Sexena, S., Kahandawala, M. S., Sidhu, S. S., Wang, H. 2009
  • Weakly bound carbon-carbon bonds in acenaphthylene derivatives 6th US National Combustion Meeting, Ann Arbor, MI Dames, E. E., Sirjean, B., Cain, J., Laskin, A., Wang, H. 2009
  • Combustion characteristics of conventional and synthetic jet fuels 2009 Fall Western States Section Meeting of the Combustion Institute, Irvine, CA Ji, C., Wang, L. I., Wang, H., Egolfopoulos, F. N. 2009
  • Temperature-dependent chemical kinetic model of methane oxidation over palladium surfaces 2009 Fall Western States Section Meeting of the Combustion Institute, Irvine, CA Shimizu, T., Wang, H. 2009
  • Sensitivity of propagation and extinction of large hydrocarbon flames to binary diffusion coefficients 2008 Spring Western States Section Meeting of the Combustion Institute, Los Angeles, CA Holley, A. T., You, X., Dames, E., Wang, H., Egolfopoulos, F. N. 2008
  • Mesoporous TiO2 thin films prepared by flame stabilized on a rotating surface - application to dye sensitized solar cells 6th US National Combustion Meeting, Ann Arbor, MI Memarzadeh, S., Phares, D. J., Wang, H. 2009
  • Spatially-resolved measurement of soot dynamics by small angle neutron scattering in a heavily sooting flame 231st ACS National Meeting, Atlanta, GA Wang, H., Zhao, B., Wyslouzil, B., Kim, Y. J. 2006
  • A thermodynamically consistent model of hydrogen oxidation over palladium 2007 Fall Meeting of the Western States Section of the Combustion Institute, Livermore, CA Shimizu, T., Wang, H. 2007
  • Conical intersections and spin-orbit coupling in the reaction of atomic oxygen with benzene 4th Joint Meeting of the U.S. Sections of the Combustion Institute, Drexel University, Philadelphia, PA Barckholtz, T., Joshi, A., Wang, H., 2005
  • Automatic optimization of a natural gas detailed mechanism for HCCI-engine simulations 2004 Powertrain and Fluid Systems Conference and Exhibition, Tempa, FL Bellanca, R., Mauss, F., Wang, H. 2004
  • The influence of H-atom diffusion coefficient on laminar flame simulation 2nd Joint Meeting of the U.S. Sections of the Combustion Institute, Berkeley, CA Yang, Z., Yang, B., Wang, H. 2001
  • Detailed kinetic modeling of aromatics formation, growth and oxidation in laminar premixed flames 1993 Fall Technical Meeting of the Eastern States Section of the Combustion Institute Wang, H., Frenklach, M. 1993
  • RRKM analysis of aromatic radical reactions with acetylene 1993 Fall Technical Meeting of the Eastern States Section of the Combustion Institute Wang, H., Frenklach, M. 1993
  • Enthalpies of formation of PAH molecules and radicals 1993 Joint Technical Meeting of the Central and Eastern States Sections of the Combustion Institute Wang, H., Frenklach, M. 1993
  • Chemistry and optimization of a reaction mechanism for C4 hydrocarbon combustion poster at 29th International Symposium on Combustion, Sapporo, Japan Davis, S. G., Joshi, A., Wang, H. 2002
  • Optimization of a detailed methane combustion mechanism poster paper presented at 22nd International Symposium on Combustion Frenklach, M., Wang, H., Rabinowitz, M. J. 1988
  • Chemical reactive control of HCCI engines 2005 Annual Meeting of American Institute of Chemical Engineers Langille, J. A., Ren, J. Y., Egolfopoulos, F. N., Wang, H., Tsotsis, T. T. 2005
  • Experiments and modeling of soot formation in laminar premixed flames: detailed particle size distribution function, effect of ferrocene addition, and role of ion in soot mass growth 7th International Workshop on Microgravity Combustion and Chemically Reacting Systems, Cleveland, OH Wang, H., Sung, C. J. 2003
  • Spectral expansion analysis of kinetic model uncertainty beyond parameter optimization 5th Joint States Section of the Combustion Institute Meeting, San Diego, CA Sheen, D. A., Wang, H. 2007
  • The influence of sodium methanesulfonate on hygroscopic and reactive properties of NaCl particles Fall 2007 Meeting of the American Geophysical Union Liu, Y., Desyaterik, Y., Zhu, Z., Minofar, B., Jungwirth, P., Wang, H., Laskin, A. 2007
  • Size distribution, morphology and chemical composition of soot formed in an atmospheric ethylene-oxygen-argon flame 231st ACS National Meeting, Atlanta, GA Zhao, B., Uchikawa, K., Johnston, M. V., Wang, H. 2006
  • A study of combustion soot produced in laminar premixed ethylene flames using small angle neutron scattering 2002 Annual AAAR Meeting Wang, H., Zhao, B., Wyslouzil, B., Streletzky, K. 2002
  • Ultrafine anatase TiO2 nanoparticles synthesized using an atmospheric premixed stagnation flame 2005 Fall Meeting of the Western States Section of the Combustion Institute, Stanford, CA Zhao, B., Uchikawa, K., McCormick, J. R., Chen, J. G., Wang, H. 2005
  • Ultrafine anatase TiO2 nanoparticles synthesized using an atmospheric premixed stagnation flame 4th Joint Meeting of the U.S. Sections of the Combustion Institute, Drexel University, Philadelphia, PA Zhao, B., Uchikawa, K., McCormick, J. R., Chen, J. G., Wang, H. 2005
  • Nucleation of soot in flames: advances in experimental and computational methods 18th Annual Symposium of the Israeli Section of the Combustion Institute, Jerusalem Wang, H. 2002
  • A theoretical study of binary diffusion coefficients of H-He and H-Ar at high temperatures 2001 Fall Technical Meeting of the Eastern States Section of the Combustion Institute, Hilton Head, SC Yang, B., Middha, P., Wang, H. 2001
  • Kinetic modeling of gas-phase aromatics oxidation and growth Nineteenth Symposium (International) On Combustion Wang, H. 1998
  • Optimized chemical kinetics for modeling natural gas combustion Fall International Symposium, American Flame Research Committee, Monterey, CA Frenklach, M., Wang, H., Goldenberg, M., Bowman, C. T., Hanson, R. K., Smith, G. P., Golden, D. M., Gardiner, Jr., W. C., Lissianski, V. 1995
  • The oxidation of methane at elevated pressures: preliminary experiments and modeling 1991 Fall Technical Meeting of the Eastern States Section of The Combustion Institute Hunter, T. B., Litzinger, T. A., Wang, H., Frenklach, M. 1991
  • Spectral optimization and uncertainty propagation in detailed kinetic modeling of hydrocarbon combustion 2008 SIAM International Conference on Numerical Combustion, Montery, CA Wang, H., Sheen, D. A., You, X., Lovas, T. 2008
  • PrIMe: Data model for laminar premixed flames poster at 31st International Symposium on Combustion, Montreal, Canada Wang, H., Dames, E., You, X., Egolfopoulos, F. N., Smith, G. P., Djurisic, Z., Frenklach, M. 2008
  • On initiation mechanism of shock-tube oxidation of unsaturated hydrocarbons poster paper presented at 16th International Symposium on Gas Kinetics, Cambridge, England Wang, H. 2000
  • Detailed kinetic modeling of PAH growth in laminar premixed hydrocarbon flames 3rd International Conference on Chemical Kinetics Wang, H., Frenklach, M. 1993
  • Detailed modeling of soot formation in high-pressure laminar premixed flames poster paper presented at 3rd International Conference on Chemical Kinetics, Gaithersburg, MD Kazakov, A., Wang, H., Frenklach, M. 1993