WIN Distinguished Lecture: Peidong Yang

Thursday, October 6, 2022 11:00 am - 12:00 pm EDT
Nanowire (Bio)photoelectrochemistry event banner featuring Peidon Yang

The Waterloo Institute for Nanotechnology (WIN) is pleased to present a Distinguished Lecture by Peidong Yang, a distinguished professor in the Department of Chemistry at University of California, Berkeley.

*Registration is required. Please register early as there is limited in-person seating.

 

In-person registration:
https://www.eventbrite.ca/e/win-distinguished-lecture-peidong-yang-tickets-414808341917

Virtual registration:
https://uwaterloo.zoom.us/webinar/register/WN_7C4eepXtTdC4ugWFKfXqqw

Title: Nanowire (Bio)photoelectrochemistry
Abstract: Wires of different forms are an integral part of our human society for centuries. Electricity is being delivered through powerlines to every household; information is routinely transmitted through optical fibers and bridge-building requires the use of mechanically robust cables. In the past 25 years, scientists have fundamentally discovered a new process of making nanoscopic wires, 1000 times thinner than human hairs, enabled new generation of computing, integrated photonics, and energy and biomedical technologies. Semiconductor nanowire, a new form of semiconductor, by definition, typically has cross-sectional dimension that can be tuned from 1–100 nm, with length spanning from hundreds of nanometers to millimeters. These subwavelength structures represent a new class of semiconductor materials for investigating light generation, propagation, detection, amplification, modulation as well as energy conversion and storage.

After more than two decade of research, semiconductor nanowires with predictable and controlled electrical properties can be synthesized[J. Am. Chem. Soc. 2001, 123, 3165], thus providing optoelectronically-tunable nanoscale building blocks for device assembly for the first time, including nanoscopic lasersn[Science, 2001, 292, 1897; Science, 2004,305, 1269], solarncells [Nature Materials, 2005, 4, 455], nanofluidic transistors [Phys. Rev.nLett., 2005, 95,086607], intracellular optical and electrical probes [J. Am.
Chem. Soc. 2007, 129, 7228; Nature, 2007, 447, 1098; Nature Nanotech., 2012,n7, 191], thermoelectrics [Nature, 2008, 451, 163] and (bio)photochemicalndiodes [Nano Letters 2015, 15, 3634; Science, 2016, 351, 74]. Nanowirenrepresents an important class of nanostructure building blocks fornphotovoltaics as well as direct solar-to-fuel conversion because of theirnhigh surface area, tunable bandgap, and efficient charge transport and collection. In this talk, I will present a brief history of nanowire researchnfor the past 25 years and highlight the synthesis of nanowires usingnwell-defined chemistry. These semiconductor nanowires, with their uniquenphotoelectrochemistry, are then used for artificial photosynthesis based on (bio)photochemical diode system design, where solar energy is converted and stored in chemical bonds in a solar driven CO2 fixation process.

Biography: Peidong Yang is a Chemistry professor, S. K. and Angela Chan Distinguished Chair Professor in Energy at the University of California, Berkeley. He is a senior faculty scientist at Materials and Chemical Sciences Division, Lawrence Berkeley National Laboratory. He is a member of both the National Academy of Sciences and the American Academy of Arts and Sciences.

Prof. Yang is known particularly for his work on semiconductor nanowires and their photonic and energy applications including artificial photosynthesis. He is the director for California Research Alliance by BASF and the Kavli Energy Nanoscience Institute at Berkeley. He is an Executive Editor for Journal of the American Chemical Society.

Dr. Yang received his B.A. in Chemistry from the University of Science and Technology in China in 1993. He then received his Ph.D. in Chemistry from Harvard University in 1997, and did his postdoctoral fellowship at the University of California, Santa Barbara. Soon after, he joined the faculty at the University of California, Berkeley. He is the recipient of Global Energy Prize, MacArthur Fellowship, E. O. Lawrence Award, ACS Nanoscience Award, MRS Medal, Baekeland Medal, Alfred P. Sloan research fellowship, the Arnold and Mabel Beckman Young Investigator Award, National Science Foundation Young Investigator Award, MRS Young Investigator Award, Julius Springer Prize for Applied Physics, ACS Pure Chemistry Award, and Alan T. Waterman Award. He is the 2014 Thomas Reuters Citation Laureate for Physics.