Vice Provost and Dean of Research

Showing 41-60 of 1,154 Results

  • Halleh Balch

    Halleh Balch

    Assistant Professor of Oceans and, by courtesy, of Electrical Engineering

    BioHalleh B. Balch is an experimental physicist and HHMI Hanna H. Gray Faculty Fellow at Stanford University. Her research broadly focuses on advancing imaging, spectroscopy, and nanophotonics with a focus on applications in oceanography and water sustainability. Halleh received her PhD in physics from the University of California Berkeley and her undergraduate degree from Swarthmore College in physics and literature. Halleh joined Stanford as an Assistant Professor in the Doerr School of Sustainability in August 2025.

  • Nicholas Bambos

    Nicholas Bambos

    Richard W. Weiland Professor in the School of Engineering and Professor of Electrical Engineering

    BioNick Bambos is R. Weiland Professor in the School of Engineering at Stanford University, having a joint appointment in the Department of Electrical Engineering and the Department of Management Science & Engineering. He has been the Fortinet Founders Department Chair of the Management Science & Engineering Department (2016 – 20).

    He heads the Computer Systems Performance Engineering Lab (Perf-Lab) at Stanford, comprised of doctoral students and industry visitors engaged in various research projects, and was the Director (1999 – 2005) of the Stanford Networking Research Center (a research project of about $30M). He has published over 300 peer-reviewed research publications and graduated over 40 doctoral students (including two post-doctoral ones), who have moved on to leadership positions in academia, the Silicon Valley industries and technology startups, finance and venture capital, etc.

    His research interests are in architecture and high-performance engineering of computer systems and networks, as well as data analytics with an emphasis on medical and health-care analytics. His research contributions span the areas of networking and the Internet, cloud computing and data centers, multimedia streaming, computer security, digital health, etc. His methodological interests and contributions span the areas of network control, online task scheduling, routing and distributed processing, machine learning and artificial intelligence, etc.

    He received his Ph.D. (1989) in Electrical Engineering & Computer Sciences from the University of California at Berkeley. Before joining Stanford in 1996, he served as assistant professor (1989 – 95) and tenured associate professor (1995 – 96) of Electrical Engineering at the University of California at Los Angeles (UCLA).

    He has received several best research paper awards and has been the Cisco Systems Faculty Development Chair and the David Morgenthaler Faculty Scholar at Stanford. He has won the IBM Faculty Award, as well as the National Young Investigator Award and the Research Initiation Award from the National Science Foundation. He has been a Berkeley U.C. Regents Fellow, an E. C. Anthony Fellow, and a D. & S. Gale Fellow.

    He has served on various editorial boards of research journals, scientific boards of research labs, international technical and scientific committees, and technical review panels for networking and computing technologies. He has also served on corporate technical boards, as consultant and co-founder of technology start-up companies, and as expert witness in high-profile patent litigation and other legal cases involving information technologies.

  • Niaz Banaei

    Niaz Banaei

    Professor of Pathology and of Medicine (Infectious Diseases)

    Current Research and Scholarly InterestsHis research interests include (1) development, assessment, and improvement of novel infectious diseases diagnostics, (2) enhancing the quality of C. difficile diagnostic results, and (3) characterization of M. tuberculosis virulence determinants.

  • Steven Banik

    Steven Banik

    Assistant Professor of Chemistry

    BioSteven Banik’s research interests center on rewiring mammalian biology and chemical biotechnology development using molecular design and construction. Projects in the Banik lab combine chemical biology, organic chemistry, protein engineering, cell and molecular biology to precisely manipulate the biological machines present in mammalian cells. Projects broadly aim to perform new functions that shed light on regulatory machinery and the potential scope of mammalian biology. A particular focus is the study of biological mechanisms that can be coopted by synthetic molecules (both small molecules and proteins). These concepts are applied to develop new therapeutic strategies for treating aging-related disorders, genetic diseases, and cancer.

    Prior to joining the faculty at Stanford, Steven was a NIH and Burroughs CASI postdoctoral fellow advised by Prof. Carolyn Bertozzi at Stanford. His postdoctoral research developed approaches for targeted protein degradation from the extracellular space with lysosome targeting chimeras (LYTACs). He received his Ph.D. from Harvard University in 2016, where he worked with Prof. Eric Jacobsen on synthetic methods for the selective, catalytic difluorination of organic molecules and new approaches for generating and controlling reactive cationic intermediates in asymmetric catalysis.

  • Zhenan Bao

    Zhenan Bao

    K. K. Lee Professor, Senior Fellow at the Precourt Institute for Energy and Professor, by courtesy, of Materials Science and Engineering, of Chemistry, and of Bioengineering

    BioZhenan Bao joined Stanford University in 2004. She is currently a K.K. Lee Professor in Chemical Engineering, and with courtesy appointments in Chemistry, Bioengineering and Material Science and Engineering. She was the Department Chair of Chemical Engineering from 2018-2022 and in 2025. She founded the Stanford Wearable Electronics Initiative (eWEAR) and is the current faculty director. Bao received her Ph.D. degree in Chemistry from The University of Chicago in 1995 and joined Bell Labs, Lucent Technologies. She became a Distinguished Member of Technical Staff in 2001. Professor Bao currently has more than 800 refereed publications and more than 80 US patents with a Google Scholar H-index 237.

    Bao is a member of the US National Academy of Sciences, National Academy of Engineering, the American Academy of Arts and Sciences and the National Academy of Inventors. Bao was elected a foreign member of the Chinese Academy of Science in 2021. She is a Fellow of AAAS, ACS, MRS, SPIE, ACS POLY and ACS PMSE.

    Bao is a member of the Board of Directors for the Camille and Dreyfus Foundation from 2022. She served as a member of Executive Board of Directors for the Materials Research Society and Executive Committee Member for the Polymer Materials Science and Engineering division of the American Chemical Society. She co-founded C3 Nano Co. (acquired by Du Pont) and PyrAmes, which have produced products used in commercial smartphones and hospitals, respectively. Multiple inventions from her lab have been licensed and served as foundational technologies for several additional start-ups.

    Bao was a recipient of the VinFuture Prize Female Innovator 2022, ACS Award of Chemistry of Materials 2022, MRS Mid-Career Award in 2021, AICHE Alpha Chi Sigma Award 2021, ACS Central Science Disruptor and Innovator Prize in 2020, ACS Gibbs Medal in 2020, the Wilhelm Exner Medal from the Austrian Federal Minister of Science in 2018, the L'Oreal UNESCO Women in Science Award North America Laureate in 2017. She was awarded the ACS Applied Polymer Science Award in 2017, ACS Creative Polymer Chemistry Award in 2013 ACS Cope Scholar Award in 2011. She is a recipient of the Royal Society of Chemistry Beilby Medal and Prize in 2009, IUPAC Creativity in Applied Polymer Science Prize in 2008.

    In Stanford, Bao has pioneered molecular design concepts and fabrication processes to advance the scope and applications of skin-inspired electronics. Her group discovered nano confinement effect of conjugated polymers in polymer blends, which established the fundamental foundation for skin-inspired electronic materials and devices. Her work has resulted in new materials and device solutions for soft robotics, wearable and implantable electronics for precision health, precision mental health and advanced tools for understanding neuroscience and treatment of neurodegenerative diseases. Building on chemical insights, her group has developed foundational materials and devices that enabled a new generation of skin-inspired soft electronics. They provide unprecedented opportunities for understanding human health through developing monitoring, diagnosis and treatment tools. Some examples include: a neuromorphic e-skin that can sense force and temperature and directly communicate with brain, a wireless wound healing patch, a soft NeuroString for simultaneous neurochemical monitoring in the brain and gut, soft high-density electrophysiological recording array, a meta-learned skin sensor for detailed body movements, a reconfigurable self-healing electronic skin.

    • Contact Info
      • Shriram Center
      • Chemical Engineering 443 Via Ortega, Room 307
      • Stanford, California 94305
      Mail Code: 4300
      (650) 723-9780 (fax)
  • Maria Barna

    Maria Barna

    Associate Professor of Genetics

    Current Research and Scholarly InterestsOur lab studies how intricate control of gene expression and cell signaling is regulated on a minute-by-minute basis to give rise to the remarkable diversity of cell types and tissue morphology that form the living blueprints of developing organisms. Work in the Barna lab is presently split into two main research efforts. The first is investigating ribosome-mediated control of gene expression genome-wide in space and time during cellular differentiation and organismal development. This research is opening a new field of study in which we apply sophisticated mass spectrometry, computational biology, genomics, and developmental genetics, to characterize a ribosome code to gene expression. Our research has shown that not all of the millions of ribosomes within a cell are the same and that ribosome heterogeneity can diversify how genomes are translated into proteomes. In particular, we seek to address whether fundamental aspects of gene regulation are controlled by ribosomes harboring a unique activity or composition that are tuned to translating specific transcripts by virtue of RNA regulatory elements embedded within their 5’UTRs. The second research effort is centered on employing state-of-the-art live cell imaging to visualize cell signaling and cellular control of organogenesis. This research has led to the realization of a novel means of cell-cell communication dependent on a dense network of actin-based cellular extension within developing organs that interconnect and facilitate the precise transmission of molecular information between cells. We apply and create bioengineering tools to manipulate such cellular interactions and signaling in-vivo.

  • Christopher O. Barnes

    Christopher O. Barnes

    Assistant Professor of Biology and, by courtesy, of Structural Biology

    Current Research and Scholarly InterestsResearch in our lab is aimed at defining the structural correlates of broad and potent antibody-mediated neutralization of viruses. We combine biophysical and structural methods (e.g., cryo-EM), protein engineering, and in vivo approaches to understand how enveloped viruses infect host cells and elicit antigen-specific immune responses. We are particularly interested in the co-evolution of HIV-1 and broadly-neutralizing IgG antibodies (bNAbs), which may hold the key to the development of an effective HIV-1 vaccine. In addition, we are investigating antibody responses to SARS-CoV-2 and related zoonotic coronaviruses (CoV), with the related goal of developing broadly-protective immunotherapies and vaccines against variants of concern and emerging CoV threats.

    HIV-1; SARS-CoV-2; coronaviruses; cryo-EM; crystallography; vaccines; directed evolution

  • Vanessa Barone

    Vanessa Barone

    Assistant Professor of Biology

  • Annelise E. Barron

    Annelise E. Barron

    Associate Professor of Bioengineering

    Current Research and Scholarly InterestsBiophysical mechanisms of host defense peptides (a.k.a. antimicrobial peptides) and their peptoid mimics; also, molecular and cellular biophysics of human innate immune responses.

    • Contact Info
      Mail Code: 5444
    • Other Names:
      Annelise Barron
  • Greg Barsh

    Greg Barsh

    Professor of Genetics and of Pediatrics, Emeritus

    Current Research and Scholarly InterestsGenetics of color variation

    • Contact Info
      • 240 PASTEUR DR
      • PALO ALTO, California 94304
      Mail Code: 5120
  • Michael Bassik

    Michael Bassik

    Associate Professor of Genetics

    Current Research and Scholarly InterestsWe are an interdisciplinary lab focused on two major areas:(1) we seek to understand mechanisms of cancer growth and drug resistance in order to find new therapeutic targets(2) we study mechanisms by which macrophages and other cells take up diverse materials by endocytosis and phagocytosis; these substrates range from bacteria, viruses, and cancer cells to drugs and protein toxins. To accomplish these goals, we develop and use new technologies for high-throughput functional genomics.

  • Glaivy Batsuli, MD

    Glaivy Batsuli, MD

    Associate Professor of Pediatrics (Hematology/Oncology)

    Current Research and Scholarly InterestsHemophilia is a rare inherited X-linked bleeding disorder characterized by the deficiency of blood clotting proteins factor VIII or factor IX. These individuals are at risk for spontaneous bleeds and trauma or surgery-induced bleeding. There have been remarkable advancements in the management of hemophilia to prevent these bleeding episodes and improve quality of life. However, the presence of neutralizing antibodies, called inhibitors, still dictates access to novel therapies such as factor replacement for bleed management and now FDA-approved gene therapies. The Batsuli Lab is focused on elucidating mechanisms of the immune response to blood coagulation proteins in bleeding disorders in order to develop strategies and therapeutics for inhibitor prevention and tolerance induction.

    Dr. Batsuli's clinical research interests also include clinical trial participation for novel therapeutics & interventions in bleeding disorders such as hemophilia and von Willebrand disease in addition to coagulation issues & outcomes in ultra-rare bleeding disorders and sickle cell disease.

    • Contact Info
      • 240 PASTEUR DR
      • BMI module 2400
      • PALO ALTO, California 94304
      Mail Code: 5139
      gbatsuli@stanford.edu
  • Fiona Baumer

    Fiona Baumer

    Assistant Professor of Neurology (Pediatric Neurology)

    Current Research and Scholarly InterestsCauses of Disturbed Cognition in Pediatric Epilepsy

  • Mohsen Bayati

    Mohsen Bayati

    Carl and Marilynn Thoma Professor in the Graduate School of Business and Professor, by courtesy, of Electrical Engineering and of Radiation Oncology (Radiation Therapy)

    Current Research and Scholarly Interests1) Healthcare management: I am interested in improving healthcare delivery using data-driven modeling and decision-making.

    2) Network models and message-passing algorithms: I work on graphical modeling ideas motivated from statistical physics and their applications in statistical inference.

    3) Personalized decision-making: I work on machine learning and statistical challenges of personalized decision-making. The problems that I have worked on are primarily motivated by healthcare applications.

    • Contact Info
      • Faculty East Building E363
      • Knight Management Center
      • 655 Knight Way
      • Stanford, California 94305
      Mail Code: 4800
      (650) 724-7402 (fax)
      bayati@stanford.edu
  • Tina Baykaner

    Tina Baykaner

    Assistant Professor of Medicine (Cardiovascular Medicine)

    BioTina Baykaner, MD, MPH is an Assistant Professor of Medicine in the Division of Cardiovascular Medicine and Cardiac Electrophysiology at Stanford University School of Medicine. She completed residency and fellowships in cardiovascular medicine and advanced heart failure at the University of California, San Diego, followed by fellowship training in cardiac electrophysiology at Stanford. She joined the Stanford faculty in 2018 and was promoted to Assistant Professor in 2023.

    Dr. Baykaner’s research program focuses on atrial fibrillation (AF), cardio-oncology, and the integration of artificial intelligence and machine learning into cardiac electrophysiology. She is Principal Investigator of an NIH R01 investigating atrial fibrillation in patients with hematologic malignancies treated with tyrosine kinase inhibitors and previously led an NIH K23 award focused on personalizing AF management using machine learning. She also serves as co-investigator or consultant on multiple NIH-funded R01 projects in artificial intelligence, ventricular arrhythmias, and digital cardiovascular phenotyping. Her work spans AF mechanisms, ablation outcomes, digital health implementation, and equity in arrhythmia care.

    She has authored over 200 peer-reviewed publications, book chapters, and abstracts, including more than 100 original research manuscripts, and has delivered over 100 invited lectures nationally and internationally. She served as a task force member for the 2024 EHRA/HRS/APHRS/LAHRS Expert Consensus Statement on Catheter and Surgical Ablation of Atrial Fibrillation and holds editorial leadership roles, including Associate Editor for the Journal of Interventional Cardiac Electrophysiology and editorial board positions with multiple electrophysiology journals.

    Dr. Baykaner is Vice-Chair of the Heart Rhythm Society Digital Education Committee and serves on national program and grant review committees, including NIH/NHLBI study sections. She is actively engaged in mentorship across undergraduate, medical, graduate, and postdoctoral levels, with mentees who have received national awards and progressed to electrophysiology fellowship and faculty positions.

    Her clinical practice focuses on catheter ablation of atrial and ventricular arrhythmias, supraventricular tachycardias, management of inappropriate sinus tachycardia, cardiac implantable electronic device implantation and extraction, and advanced rhythm management strategies in complex patient populations.

    • Contact Info
      Mail Code: 5687
  • Philip Beachy

    Philip Beachy

    The Ernest and Amelia Gallo Professor, Professor of Urology, of Developmental Biology and, by courtesy, of Chemical and Systems Biology

    Current Research and Scholarly InterestsFunction of Hedgehog proteins and other extracellular signals in morphogenesis (pattern formation), in injury repair and regeneration (pattern maintenance). We study how the distribution of such signals is regulated in tissues, how cells perceive and respond to distinct concentrations of signals, and how such signaling pathways arose in evolution. We also study the normal roles of such signals in stem-cell physiology and their abnormal roles in the formation and expansion of cancer stem cells.

    • Contact Info
      • Lorry I. Lokey Stem Cell Research Building G3120a
      • 265 Campus Drive
      • Stanford, California 94305-5463
      Mail Code: 5463
      pbeachy@stanford.edu
    • Other Names:
      Phil Beachy
  • Beth Beadle, MD, FASTRO

    Beth Beadle, MD, FASTRO

    Professor of Radiation Oncology (Radiation Therapy)

    • Contact Info
      • 875 Blake Wilbur Drive
      • MC-5847
      • Stanford, California 94305
      Mail Code: 5847
  • Christopher Beaulieu M.D., Ph.D.

    Christopher Beaulieu M.D., Ph.D.

    Professor of Radiology (Musculoskeletal Imaging)
    On Partial Leave from 01/05/2026 To 06/26/2026

    Current Research and Scholarly InterestsInformatics and image processing techniques that provide infrastructure for diagnosis in musculoskeletal imaging. Decision support for improving accuracy of bone tumor diagnosis. Improved methods for MRI in the musculoskeletal system.

    • Contact Info
      • 453 Quarry Rd Dept Of
      • Center For Academic Medicine 330b
      • Palo Alto, California 94304-1419
      Mail Code: 5659
  • Barry Behr, Ph.D., H.C.L.D.

    Barry Behr, Ph.D., H.C.L.D.

    Professor of Obstetrics and Gynecology (Reproductive Endocrinology and Infertility), Emeritus

    Current Research and Scholarly InterestsDevelopment of improved embryo culture conditions in vitro. Blastocyst cultures. Embryo metabolism in vitro. Embryo maternal dialogue. Clinical application and integration of extended embryo culture systems. Monozygotic twinning. Prevention of multiple pregnancy. Sperm motility enhancers. Fluorescent and non-fluorescent markers of sperm morphology and viablility. Oocyte cryopreservation. Fertility preservation. Improving IVF outcome.

    • Contact Info
      Mail Code: 5317
  • Corinne Beinat

    Corinne Beinat

    Assistant Professor of Radiology (Molecular Imaging Program at Stanford)

    Current Research and Scholarly InterestsThe focus of my research is to develop novel imaging and treatment strategies to detect and better manage cancer. This approach relies first on the identification and validation of molecular targets and biomarkers that are linked with underlying the underlying biology driving the initiation and progression of cancers. We then develop novel small molecule based radiotracers to monitor fundamental molecular and cellular processes occurring in living subjects using positron emission tomography (PET) with the goal of improving cancer diagnosis and management. We additionally develop novel peptide based theragnostic agents for stratification of patients with high receptor expression, treatment with targeted radionuclide therapy, and subsequent monitoring of treatment response. Our overall goal is to develop multiple clinically translatable strategies to improve cancer diagnosis, management, and outcomes.