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Your search keyword '"Ji, Tongtai"' showing total 20 results
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20 results on '"Ji, Tongtai"'

18. Nondestructively Visualizing and Understanding the Mechano‐Electro‐chemical Origins of "Soft Short" and "Creeping" in All‐Solid‐State Batteries.

Author

Cao, Daxian, Zhang, Kena, Li, Wei, Zhang, Yuxuan, Ji, Tongtai, Zhao, Xianhui, Cakmak, Ercan, Zhu, Juner, Cao, Ye, and Zhu, Hongli

Subjects
COMPUTED tomography, NEUTRON radiography, SOLID mechanics, SOLID state batteries, DEFORMATIONS (Mechanics), X-ray imaging
Abstract

All‐solid‐state Li‐metal batteries (ASLMBs) represent a significant breakthrough in the quest to overcome limitations associated with traditional Li‐ion batteries, particularly in energy density and safety aspects. However, widespread implementation is stymied due to a lack of profound understanding of the complex mechano‐electro‐chemical behavior of Li metal in the ASLMBs. Herein, operando neutron imaging and X‐ray computed tomography (XCT) are leveraged to nondestructively visualize Li behaviors within ASLMBs. This approach offers real‐time observations of Li evolutions, both pre‐ and post‐ occurrence of a "soft short". The coordination of 2D neutron radiography and 3D neutron tomography enables charting of the terrain of Li metal deformation operando. Concurrently, XCT offers a 3D insight into the internal structure of the battery following a "soft short". Despite the manifestation of a "soft short", the persistence of Faradaic processes is observed. To study the elusive "soft short" , phase field modeling is coupled with electrochemistry and solid mechanics theory. The research unravels how external pressure curbs dendrite growth, potentially leading to dendrite fractures and thus uncovering the origins of both "soft" and "hard" shorts in ASLMBs. Furthermore, by harnessing finite element modeling, it dive deeper into the mechanical deformation and the fluidity of Li metal. [ABSTRACT FROM AUTHOR]

Published
2023
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19. In operandoneutron imaging characterizations of all-solid-state batteries

Author

Cao, Daxian, Zhang, Yuxuan, Ji, Tongtai, and Zhu, Hongli

Abstract

Graphical abstract: This article discusses the application of neutron imaging for operandocharacterization of all-solid-state batteries. It compares neutron imaging to other techniques and highlights its advantages in visualizing light elements such as lithium. It also covers recent progress in using neutron imaging to investigate reaction mechanisms, lithium dynamics, and failure modes in all-solid-state lithium metal and lithium sulfur batteries. It also analyzes the future outlook for neutron imaging as a powerful nondestructive tool to gain insights into interfacial phenomena in all-solid-state batteries.

Published
2023
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