Our recent work on “Mechanistic insights of enhanced spin polaron conduction in CuO through atomic doping” has been accepted in npj Computational Materials! Congratulations to Tyler, Feng, and Prof. Ping! The formation of a “spin polaron” …
Physics
Point of Anchor: Impacts on Interfacial Charge Transfer of Metal Oxide Nanoparticles
Our recent work on “Point of Anchor: Impacts on Interfacial Charge Transfer of Metal Oxide Nanoparticles” by Bingzhang Lu, Feng Wu in collaboration with Prof. Shaowei Chen’s group was published in the Journal of the American …
Spin-optotronic Properties of Organometal Halide Perovskites
Our recent review article on “Spin-optotronic Properties of Organometal Halide Perovskites” by Prof. Ping with Prof. Jin Zhong Zhang was published as a cover article in the Journal of Physical Chemistry Letters! Spin is an intrinsic …
Combining Landau-Zener Theory and Kinetic Monte Carlo Sampling for Small Polaron Mobility of Doped BiVO4 from First-principles
Congratulations Feng and Prof. Ping on there new publication in Journal of Materials Chemistry A! In this work we established a first-principles framework for polaron hopping mobility in anisotropic and doped metal oxides, by …
First-principles engineering of charged defects for two-dimensional quantum technologies
Charged defects in two-dimensional (2D) materials have emerging applications in quantum technologies such as quantum emitters and quantum computation. The advancement of these technologies requires a rational design of ideal defect centers, demanding reliable computation …