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Reference Number EP/Z000483/1
Title Atomic Imaging and Diagnosis of Electrochemical Materials - AIDEChem
Status Started
Energy Categories Other Power and Storage Technologies (Energy storage) 100%;
Research Types Basic and strategic applied research 80%;
Equipment 20%;
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Chemistry) 25%;
ENGINEERING AND TECHNOLOGY (Electrical and Electronic Engineering) 25%;
ENGINEERING AND TECHNOLOGY (Chemical Engineering) 50%;
UKERC Cross Cutting Characterisation Not Cross-cutting 100%
Principal Investigator Dr AW Robertson

Physics
University of Warwick
Award Type Standard
Funding Source EPSRC
Start Date 05 August 2024
End Date 04 August 2029
Duration 60 months
Total Grant Value £2,387,051
Industrial Sectors
Region West Midlands
Programme Frontier Grants - Consolidator
 
Investigators Principal Investigator Dr AW Robertson , Physics, University of Warwick (100.000%)
Web Site
Objectives
Abstract This project will construct a new transmission electron microscope (TEM) platform for operando electrochemical imaging, designed to identify electrochemical processes at unprecedented spatial resolution while operating under application-relevant conditions.Better batteries and electrocatalysts are essential for realising a sustainable future. Yet the complexity of their electrochemistry - with intertwined dependence on side-reactions, valence evolution, structural changes, and more - cannot be predicted just by modelling. Peering inside an operating cell will reveal these processes directly, enabling the informed design of future energy materials. Resolving many of these critical aspects still reside beyond the resolution limits of current in-situ characterisation methods.The core objectives of AIDEChem are: (i) To develop a new graphene-enabled electrochemical cell that will grant a unique high-resolution TEM imaging and spectroscopy capability for probing electrochemistry in-situ. (ii) To reveal previously inaccessible processes occurring in candidate electrochemical systems, including batteries and electrocatalysts, at ground-breaking resolutions.The new platform will be used to expose the nanoscale dynamics that govern electrochemical nucleation of nanostructures, epitaxial electrodeposition, nanobubble deactivation of electrodes, and electrocatalyst evolution; electrochemistry that is largely inaccessible with current in-situ microscopy technology. With the new technical capability realised in this platform, AIDEChem will provide the insights that are mandatory for the informed design of effective electrochemical energy materials, optimally tailored for the desired application. Delivery of AIDEChem will be possible due to the PI's combination of research skills - encompassing in-situ TEM, nanoscale device fabrication, 2D materials, and electrochemistry - and the TEM, nanofabrication, and electrochemistry facilities at Warwick University
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Added to Database 21/08/24