Understanding dynamic interfaces in electrochemical systems (2023-2027)

Abstract

This project aims to develop nanoscale characterisation methods to understand dynamic processes in zinc-ion batteries and high temperature electrolysis systems under real working (in operando) conditions. This project expects to reveal critical solid-liquid and solid-gas interfacial processes in these two distinctly different electrochemical systems. The expected outcomes include improved understanding of electrochemical interfaces and improved tools and methods to observe nanoscale interfacial processes. This information can be used to underpin mechanistic models, which will facilitate new materials design.

Experts

Associate Professor Ruth Knibbe

Affiliate of Centre for Advanced Ma: Centre for Advanced Materials Processing and Manufacturing; Faculty of Engineering, Architecture and Information Technology

Affiliate of Australian Research Co: ARC Centre of Excellence-Green Electrochemical Transformation of Carbon Dioxide; Faculty of Engineering, Architecture and Information Technology

ARC Future Fellow: School of Mechanical and Mining Engineering; Faculty of Engineering, Architecture and Information Technology

Deputy Head of School of Mechanical: School of Mechanical and Mining Engineering; Faculty of Engineering, Architecture and Information Technology

Ruth Knibbe