Multiscale Design of Electrocatalysts for On-Demand H2O2 Production. The aim of this project is to design advanced single-atom catalysts at multiscale for efficient and selective electrocatalytic redu

Description

Multiscale Design of Electrocatalysts for On-Demand H2O2 Production. The aim of this project is to design advanced single-atom catalysts at multiscale for efficient and selective electrocatalytic reduction of oxygen to hydrogen peroxides as clean chemicals and fuels. It is expected to generate new knowledge in materials science and electrochemistry, using interdisciplinary approaches of multiscale material engineering, in situ characterisation and theoretical calculations. Expected outcomes include generalised design principles, innovative synthesis strategies, refined reaction mechanism understanding, and commercially relevant electrolysis technologies. Benefits include a sustainable future for Australia with advanced manufacturing, decreased emissions and resilient chemicals supply.. Scheme: Discovery Early Career Researcher Award. Field: 0912 - Materials Engineering. Lead: Dr Cheng Tang