Stanford University
Showing 1,341-1,360 of 2,768 Results
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Minxing Li
Licensing and Strategic Alliances Manager, Office of Technology Licensing (OTL)
BioMinxing is a Licensing and Strategic Alliances Manager at Stanford OTL with a focus on life sciences technologies. Since she joined Stanford in 2020, she has been involved in protecting, marketing and licensing of Stanford's intellectual property. She is currently responsible for managing Stanford's alliances with the Parker Institute for Cancer Immunotherapy (PICI), where she works closely with investigators who are part of the PICI network and manages IP and licensing matters under the PICI relationship.
Prior to Stanford, Minxing worked as a consultant at IQVIA, Inc. -
Nina Li
Community Program Manager, Stanford CARE, Medicine - Med/Family and Community Medicine
Current Role at StanfordCommunity Program Manager, Stanford CARE
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Qitong Li
Postdoctoral Scholar, Applied Physics
BioI am an experimental and applied physicist, focusing on extreme light-matter interaction at the nanoscale. I am currently working with Prof. Tony F. Heinz as a postdoctoral researcher in the Department of Applied Physics at Stanford University. Before my current position, I obtained my Ph.D. in Materials Science and Engineering from Stanford University in 2022 under the guidance of Prof. Mark L. Brongersma and my B.Sc. in Physics from Peking University in 2016.
My research concentrates on developing platforms with state-of-the-art tailored (optically resonant) nanostructures to achieve improved control over the photon-electron interaction at the nanoscale. This immediately allows us to create novel photonic and optoelectronic device concepts by coupling free-space lights into a series of well-engineered quantized optical modes and co-engineering electronic and optical components together. We therefore foresee a system-level revolution in industry enabled by nanotechnology. On the other hand, by providing a non-trivial and tunable optical, electrical, and mechanical nano-environment, this platform also fundamentally functions as a versatile tool and offers a new degree of freedom to better probe, study, and control various quantum properties and excitations in solids, especially those enhanced ones in low-dimensional materials. This will ultimately lead us to have a clearer understanding of unconventional phenomena in quantum materials and start to utilize them in a more controllable way.
