Edwin Khoo
Massachusetts Institute of Technology
18 Papers
80 Citations
Edwin Khoo is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Computer science & Battery (electricity). The author has an hindex of 7, co-authored 13 publications. Previous affiliations of Edwin Khoo include Institute for Infocomm Research Singapore & Agency for Science, Technology and Research.
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Papers
Review—"Knees" in Lithium-Ion Battery Aging Trajectories
Peter M. Attia,Alexander Bills,Ferran Brosa Planella,Philipp Dechent,Gonccalo dos Reis,Matthieu Dubarry,Paul Gasper,Richard Gilchrist,Samuel Greenbank,David A. Howey,Ouyang Liu,Edwin Khoo,Yuliya Preger,Abhishek S. Soni,Shashank Sripad,Anna G. Stefanopoulou,Valentin Sulzer +16 more
TL;DR: In this article , the authors review prior work on knee degradation in lithium-ion battery aging trajectories and identify key design and usage sensitivities for knees, and discuss challenges and opportunities for knee modeling and prediction.
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Over-limiting Current and Control of Dendritic Growth by Surface Conduction in Nanopores
TL;DR: It is shown that over-limiting current can be sustained by surface conduction in nanopores, without any such instabilities, and used to control dendritic growth during electrodeposition.
Intercalation Kinetics in Multiphase-Layered Materials
TL;DR: In this paper, a phase-field model with thermodynamically consistent reaction kinetics and cooperative transport is proposed to capture the dynamics of intercalation in layered materials, including Li-ion batteries.
Theory-guided experimental design in battery materials research
Alex Yong Sheng Eng,Chhail Bihari Soni,Yan Wei Lum,Edwin Khoo,Zhenpeng Yao,S. Vineeth,Vipin Kumar,Jun Lu,Christopher S. Johnson,Chris Wolverton,Zhi Wei Seh +10 more
TL;DR: In this paper , the interplay between theory and experiment in battery materials research is discussed, enabling to not only uncover hitherto unknown mechanisms but also rationally design more promising electrode and electrolyte materials.
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Over-limiting Current and Control of Dendritic Growth by Surface Conduction in Nanopores
TL;DR: In this article, it was shown that over-limiting current can be sustained by surface conduction in nano pores, without any such instabilities, and used to control dendritic growth during electrodeposition.