Chemistry
Showing 1-58 of 58 Results
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Song Lin
Visiting Scholar, Chemistry
BioSong Lin grew up in Tianjin, China. After obtaining B.S. from Peking University in 2008, he pursued graduate studies at Harvard University working with Eric Jacobsen. He then carried out postdoctoral studies with Chris Chang at UC Berkeley. He started his independent career at Cornell University in 2016 and was promoted to Associate Professor in 2021 and Tisch University Professor in 2023. He then joined Stanford University as a Professor of Chemistry in 2026. Song has received several early-career awards, including the Sloan Fellowship, ACS Cope Scholar, National Fresenius Award, Tetrahedron Young Investigator Award, Thieme–IUPAC Prize, Cottrell Scholar Award, Camille Dreyfus Teacher-Scholar Award, NSF CAREER Award, MIT Technology Review Innovators Under 35, BMS Unrestricted Grant, Lilly Research Award, and EPA Green Chemistry Challenge. His dedication to education has been recognized with a Stephen and Margery Russell Distinguished Teaching Award from Cornell University and a Nobel Laureate Signature Award for Graduate Education in Chemistry from the American Chemical Society. He is currently an Associate Editor at Organic Letters, and he serves on the Editorial Advisory Board of Chem, Synlett, Tetrahedron, and Tetrahedron Letters as well as the Scientific Advisory Board of OWiC Technologies.
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Silvia Russi
Research and Development Scientist and Engineer, Stanford Synchrotron Radiation Lightsource Laboratory (SSRL)
Current Role at StanfordBeamline Scientist, Structural Molecular Biology (SMB), Stanford Synchrotron Radiation Lightsource (SSRL), SLAC National Accelerator Laboratory, Stanford University
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Yilei Wu
Laboratory Services Manager 2, Chemistry
BioAs a research scientist at Stanford University, I am passionate about advancing the field of organic electronics and solar energy conversion. I have over 15 years of experience in designing, synthesizing, and applying novel organic materials for various applications, such as thin-film transistors, solar cells, spintronics, fluorescence imaging, and molecular machines. I work to develop high-performance organic materials for solution printable solar cells and wearable electronics. I leverage my expertise in supramolecular chemistry, thin-film deposition, and device characterization to optimize the donor-acceptor interfaces and bulk morphology of organic photovoltaic materials. My work contributes to the development of flexible and lightweight solar cells that can provide a sustainable and versatile solution for the modern military and civilian needs.
I oversee the operation and management of Chemistry department laboratory teaching facilities. I also oversee and administer health and safety programs and ensure safety compliance.
As instructor, I teach CHEM 100: Chemical Laboratory and Safety Skills. This is a short in-lab course that is only held in the second week of the Autumn quarter. It provides training in basic chemical laboratory procedures and chemical safety to fulfill the safety training requirement for CHEM 121 and more advanced laboratory courses. The following topics are covered: Reading and Understanding Safety Data Sheets (SDS), Exploring Hazards and Risks, Waste Management, Basic Purification (TLC, Extraction, Filtration, etc.) and Analysis Techniques. In spring 2026 I will teach CHEM 121: Understanding the Natural and Unnatural World through Chemistry.
