School of Humanities and Sciences
Showing 1-32 of 32 Results
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Yangjie Li
Postdoctoral Scholar, Chemistry
Current Research and Scholarly Interests1. Fragment correlation mass spectrometry for correlating ion pairs generated from the same fragmentation pathway, achieved by covariance mapping of tandem mass spectra
2. Use mass spectrometry for synthesis and analysis in microdroplets and at solid surfaces, focusing on air/solution, solid/solution, and liquid/liquid interfaces -
Fang Liu
Assistant Professor of Chemistry
Current Research and Scholarly InterestsThe group will develop scalable and controllable processes to produce low dimensional materials and their artificial structures, and unravel their novel static and dynamical properties of broad interest to future photonic, electronic and energy technologies. The topics will include: a) Unraveling time-resolved dynamics in light-induced electronic response of two dimensional (2D) materials artificial structures. b) Fabrication of 1D atomically thin nanoribbon arrays and characterization of the electronic and magnetic properties for the prominent edge states. c) Lightwave manipulation with 2D superlattices. These research projects will provide participating students with broad interdisciplinary training across physics, chemistry, and materials science.
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Lin Liu
Postdoctoral Scholar, Chemistry
BioI finished my undergraduate study in general chemistry at Shandong Normal University in 2014. Later, I continued to my master’s studies in organic chemistry at Lanzhou University. In 2018, I moved to Baylor University conducting research under the mentorship of Professor John L. Wood. During my graduate studies, I mainly focused on the total syntheses of natural products. In 2024, I joined the Khosla lab and Cui lab as a joint postdoc. Outside the lab, I like cooking, playing basketball, and watching movies
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Kang Yong Loh
Ph.D. Student in Chemistry, admitted Autumn 2018
BioI am a PhD graduate student and a Stanford ChEM-H Chemistry/Biology Interface Predoctoral Trainee at Stanford University, Department of Chemistry under the supervision of D.H. Chen Professor of Bioengineering Karl Deisseroth. I am interested in developing new chemical/protein tools to study neuroscience.
I was previously a research assistant at the Institute of Materials Research and Engineering and the Department of Chemistry at the National University of Singapore under the supervision of Provost's Chair Professor of Chemistry Xiaogang Liu. I was an Arnold and Mabel Beckman Fellow at the Beckman Institute of Advanced Science and Technology, University of Illinois at Urbana-Champaign under the supervison of Jay and Ann Schenck Professor of Chemistry Yi Lu on bio-inspired nanomaterials, metalloDNAzymes and sensors. Prior to this, in 2010, I joined the Institute of Bioengineering and Nanotechnology in the laboratories of Professor Ying Jackie Yi-Ru, Professor Zhiqiang Gao and Principal Research Scientist Yanbing Zu to work on ultrasensitive DNA nanoparticle based biosensors. Subsequently in 2014, I worked on upconversion nanomaterials for biological applications under the supervision of Professor Xiaogang Liu at the National University of Singapore and the Institute of Materials Research and Engineering. In Summer 2015, Kang Yong returned to the National University of Singapore, the Institute of Materials Research and Engineering and the Institute of Molecular and Cell Biology under the supervision of Professor Yin Thai Chan to work on semiconductor quantum dots and microfluidics applications.
I obtained my B.S. degree in Chemistry (Highest Distinction and Edmund J. James Scholar Honors) from the University of Illinois at Urbana-Champaign in 2017. -
Gabriela Lomeli
Postdoctoral Scholar, Chemistry
BioGabriela is a Propel Postdoctoral Scholar, co-advised by Professor Carolyn Bertozzi and Professor Polly Fordyce. Gabriela earned her PhD from the UC Berkeley – UC San Francisco Graduate Program in Bioengineering and holds a BS in Chemical Engineering from Stanford University. Her research is broadly centered on the development of microfluidic tools for protein analysis and protein engineering. At present, her main project seeks to engineer proteases to target mucins using a high-throughput microfluidic platform.
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Art Lyubimov
Engineering Science Research Associate (Staff Scientist)
BioI work on developing and supporting new X-ray diffraction data collection, monitoring, and processing software, predominantly for use at synchrotron (SSRL) beamlines but also applicable for X-ray free electron laser experiments.