Education:

University of Toronto
Ph.D. in Electrical and Computer Engineering, 2018

Fudan University
Ba.Sc. in Materials Physics, 2014

Research Interests: ^top

By 2050, the population of people over the age of 65 will double, reaching 1.2 billion in a huge global age demographics shift. The acquisition and use of information, obtained via real-time and wearable technologies, will greatly enhance the quality and efficiency of medical care.

Multifunctional skin-interfaced electronics is one of the most anticipated medical Internet of Things (IoT) technologies that enables non-invasive collection of high-quality data related to biological activity. This is realized thanks to their conformal coverage of our body, e.g., skin, eyes, organs, and more. Building on these data and recent advances in deep learning, artificial intelligence-based bioimaging, diagnosis, and therapy will be performed with higher accuracy and speed than ever before.

To address the challenge of aging and healthcare, our group aims to advance knowledge and technology through the lens of material innovation, advanced spectroscopy, and engineering of soft bio-electronics.

Biography: ^top

Professional Experience

University of Michigan
Chemical Engineering Department
Ann Arbor, Michigan
Assistant Professor, 2021-

Stanford University
Chemical Engineering Department
Postdoctoral Fellow 2018-2020

Awards: ^top

Schmidt Science Fellow, 2018

Chinese Government Award for Outstanding Self-Financed Students Abroad, Extraordinary Potential Prize, 2018

Rising Stars in EECS, Stanford University, 2017

Mitacs Globalink Graduate Fellowship (Canada), 2014

National Scholarship (China), 2013

Publications: ^top

Selected Publications

1. Z. Ning*, X. Gong*, R. Comin*, G. Walters, F. Fan, O. Voznyy, E. Yassitepe, A. Buin, S. Hoogland and E. H. Sargent, Quantum-dot-in-perovskite solids, Nature, 2015, 523, 324-328. (*: joint rst authors)
2. X. Gong*, Z. Yang*, G. Walters, R. Comin, Z. Ning, E. Beauregard, V. Adinol , O. Voznny, E. H. Sargent, Highly efficient quantum dot near-infrared light-emitting diodes, Nature Photonics, 2016, 10, 253-257. (*: equal contributions)
3. F. P. Garcia de Arquer*, X. Gong*, M. Liu, G. Kim, B. R. Sutherland, R. Comin, O. Voznyy, S. Hoogland, D. Sinton and E. H. Sargent, Field-emission solution-processed photodetectors. Nature Communications, 2017, 14757. (*: equal contributions)
4. X. Gong, O. Voznyy, A. Jain, W. Liu, R. Sabatini, Z. Piontkowski, G. Walters, G. Bappi, S. Nokhrin, O. Bushuyev, M. Yuan, R. Comin, D. McCamant, S. Kelley and E. H. Sargent, Electronphonon interaction in efficient perovskite blue emitters, Nature Materials, 2018, 17, 550-556.
5. X. Gong*, Z. Huang*, R. Sabatini, C. Tan, G. Bappi, G. Walters,A. Proppe, M. Saidaminov, O. Voznyy, S. O. Kelly, and E. H. Sargent, Contactless measurement of the photocarrier transport properties in perovskite single crystals, Nature Communications,2019,10, 1951. (*: equal contributions)

See full list of publications from Google Scholar