Samuel J Cooper
Samuel J Cooper
Associate Professor, Dyson School of Design Engineering, Imperial College London. Tldr group leader.
Verified email at - Homepage
Cited by
Cited by
On the origin and application of the Bruggeman correlation for analysing transport phenomena in electrochemical systems
B Tjaden, SJ Cooper, DJL Brett, D Kramer, PR Shearing
Current opinion in chemical engineering 12, 44-51, 2016
TauFactor: An open-source application for calculating tortuosity factors from tomographic data
SJ Cooper, A Bertei, PR Shearing, JA Kilner, NP Brandon
SoftwareX, 2016
Image Based Modelling of Microstructural Heterogeneity in LiFePO4 Electrodes for Li-ion Batteries
SJ Cooper, DS Eastwood, J Gelb, G Damblanc, DJL Brett, RS Bradley, ...
Journal of Power Sources, 2013
Solid Oxide Fuel Cell Lifetime and Reliability: Critical Challenges in Fuel Cells
N Brandon, SJ Cooper
Academic Press, 2017
Simulated impedance of diffusion in porous media
SJ Cooper, A Bertei, DP Finegan, NP Brandon
Electrochimica Acta 251, 681-689, 2017
Resolving the discrepancy in tortuosity factor estimation for Li-ion battery electrodes through micro-macro modeling and experiment
FLE Usseglio-Viretta, A Colclasure, AN Mistry, KPY Claver, ...
Journal of The Electrochemical Society 165 (14), A3403-A3426, 2018
Multi length scale microstructural investigations of a commercially available Li-ion battery electrode
PR Shearing, NP Brandon, J Gelb, R Bradley, PJ Withers, AJ Marquis, ...
Journal of The Electrochemical Society 159 (7), A1023-A1027, 2012
The application of data-driven methods and physics-based learning for improving battery safety
DP Finegan, J Zhu, X Feng, M Keyser, M Ulmefors, W Li, MZ Bazant, ...
Joule 5 (2), 316-329, 2021
Generating three-dimensional structures from a two-dimensional slice with generative adversarial network-based dimensionality expansion
S Kench, SJ Cooper
Nature Machine Intelligence 3 (4), 299-305, 2021
The electrode tortuosity factor: why the conventional tortuosity factor is not well suited for quantifying transport in porous Li-ion battery electrodes and what to use instead
TT Nguyen, A Demortière, B Fleutot, B Delobel, C Delacourt, SJ Cooper
npj Computational Materials 6 (1), 123, 2020
How machine learning will revolutionize electrochemical sciences
A Mistry, AA Franco, SJ Cooper, SA Roberts, V Viswanathan
ACS energy letters 6 (4), 1422-1431, 2021
Flexible all-fiber electrospun supercapacitor
X Liu, MN Marlow, SJ Cooper, B Song, X Chen, NP Brandon, B Wu
Journal of Power Sources 384, 264-269, 2018
Pores for thought: generative adversarial networks for stochastic reconstruction of 3D multi-phase electrode microstructures with periodic boundaries
A Gayon-Lombardo, L Mosser, NP Brandon, SJ Cooper
npj Computational Materials 6 (1), 1-11, 2020
The application of phase contrast X-ray techniques for imaging Li-ion battery electrodes
DS Eastwood, RS Bradley, F Tariq, SJ Cooper, OO Taiwo, J Gelb, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2014
Visualizing the carbon binder phase of battery electrodes in three dimensions
SR Daemi, C Tan, T Volkenandt, SJ Cooper, A Palacios-Padros, ...
ACS Applied Energy Materials 1 (8), 3702-3710, 2018
In situ study of strontium segregation in La 0.6 Sr 0.4 Co 0.2 Fe 0.8 O 3− δ in ambient atmospheres using high-temperature environmental scanning electron microscopy
M Niania, R Podor, TB Britton, C Li, SJ Cooper, N Svetkov, S Skinner, ...
Journal of Materials Chemistry A 6 (29), 14120-14135, 2018
Characterising the structural properties of polymer separators for lithium-ion batteries in 3D using phase contrast X-ray microscopy
DP Finegan, SJ Cooper, B Tjaden, OO Taiwo, J Gelb, G Hinds, DJL Brett, ...
Journal of Power Sources 333, 184-192, 2016
Degradation of {La0. 6Sr0. 4} 0.95 {Co0. 2Fe0. 8} O3− δ Solid Oxide Fuel Cell Cathodes at the Nanometer Scale and below
N Ni, SJ Cooper, R Williams, N Kemen, DW McComb, SJ Skinner
ACS applied materials & interfaces 8 (27), 17360-17370, 2016
Aligned ionogel electrolytes for high‐temperature supercapacitors
X Liu, OO Taiwo, C Yin, M Ouyang, R Chowdhury, B Wang, H Wang, ...
Advanced Science 6 (5), 1801337, 2019
A continuum of physics-based lithium-ion battery models reviewed
F Brosa Planella, W Ai, AM Boyce, A Ghosh, I Korotkin, S Sahu, V Sulzer, ...
Progress in Energy 4 (4), 042003, 2022
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