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Ni K-edge XAS Investigation of Cl-Modified Ni Single-Atom Catalysts for High-Voltage Li¿N2 Batteries (2026)

Abstract

Lithium¿nitrogen batteries are a promising technology for clean energy storage, but their reaction mechanism and active sites remain poorly understood. We recently developed a chlorine-coordinated nickel single-atom catalyst that enables unusually high discharge voltages. This proposal aims to use advanced X-ray absorption spectroscopy to directly probe how chlorine modifies the nickel electronic structure and how the catalyst changes during battery operation. The results will reveal the key atomic-scale factors that enable efficient nitrogen conversion, guiding the design of next-generation catalysts for sustainable energy technologies.

Experts

Mr Daming Ren

Postdoctoral Research Fellow
Australian Institute for Bioengineering and Nanotechnology
Daming Ren

Associate Professor Bin Luo

Associate Professor
School of Chemical Engineering
Faculty of Engineering, Architecture and Information Technology
Affiliate of Nanomaterials Centre
NanoMaterials Centre
Faculty of Engineering, Architecture and Information Technology
UQ Amplify Fellow and Group Leader
Australian Institute for Bioengineering and Nanotechnology
Bin Luo
Bin Luo

Dr Zhiliang Wang

ARC Future Fellow
School of Chemical Engineering
Faculty of Engineering, Architecture and Information Technology
Affiliate of The Nanomaterials Centre
NanoMaterials Centre
Faculty of Engineering, Architecture and Information Technology
Zhiliang Wang
Zhiliang Wang

Dr Haijiao Lu

UQ Amplify Senior Research Fellow
School of Chemical Engineering
Faculty of Engineering, Architecture and Information Technology
Affiliate of Nanomaterials Centre
NanoMaterials Centre
Faculty of Engineering, Architecture and Information Technology
Haijiao Lu
Haijiao Lu