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SUMMARY:Hetero-atomization of Bi-metals Ultrathin Nanostructure and Their
Electro-catalytic Performance - Prof. Ming Wen School of Chemistry Scienc
e and Engineering\, Tongji University\, China
DTSTART:20230706T130000Z
DTEND:20230706T140000Z
UID:TALK202552@talks.cam.ac.uk
CONTACT:Dr Mark Leadbeater
DESCRIPTION:Abstract
\n2D ultrathin nanostructure has features o
f large specific surface area\, unique planar structure\, abundant coordin
ation unsaturated atoms on surface\, excellent mechanical strength\, flexi
bility and optical clarity. Nanoalloy can afford reconfigurable electronic
structures\, catalytic activity and selectivity advantages\, optimizable
performances and improved atomic effective utilization. If nanoalloy get u
ltrathin structure together with the addition of heteroatom\, it is possib
le to further well adjust the adsorption and activation of reactive molecu
les for superior electrochemical catalytic performance.\n\nBiography\nMing WEN is a Professor in Faculty of Chemical Science and Enginee
ring School\, Tongji University at Shanghai\, China. She obtained her Ph.D
degree from chemistry department of Kinki University (Japan) in 2002\, an
d worked as an associate professor in Tongji University in the same year\,
and then advanced to full professor in 2009. She has joined research work
as senior visiting scholar at Tohoku University in Japan in 2011 and Humb
oldt-Universitätzu Berlin in German in 2015\, respectively. Her main rese
arch area is focus on the chemistry of metal & alloy nanomaterials togethe
r with their composites. A series of materials at nano- and micro-scales w
ith controllable morphologies and structures are currently investigated th
rough employing various interactions and controlled self-assemblies proces
s. Design and synthesis of novel nanostructure can be carried out through
nanoscience and nanotechnology by the careful adjusting of chemical reacti
on conditions. Based on electron-enhanced catalysis reaction\, the fabrica
tion and perform reactivity have been carried out for application in hydro
gen generation\, environments treatment\, and electrodes nanomaterials. Sh
e published over 100 SCI journal papers and some book chapters\, became di
rector of Funct. Mater. Soc. of China (2012-)\, obtained The Shanghai Natu
ral Sciences award of China (Third Prize\, 2013).\n\nRegistration\n
For online access register at: https://cam-ac-uk.zoom.us/j/84125015974\
n
LOCATION:EEDB Seminar Room\, Electrical Engineering and Online (registrati
on required)
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