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Ultra-thin (<20µm) zero-waste lithium ion conducting glass fibre fabrication using crucible drawing for solid-state battery applications

Ultra-thin (<20µm) zero-waste lithium ion conducting glass fibre fabrication using crucible drawing for solid-state battery applications
Ultra-thin (<20µm) zero-waste lithium ion conducting glass fibre fabrication using crucible drawing for solid-state battery applications
Crucible drawing was employed to demonstrate the feasibility of zero-waste fabrication of Lithium Zirconia Silicate (LZS) glass fibres with diameters between 20 to 9 µm (±1 µm), used as an electrolyte in solid-state batteries.
Optica Publishing Group
Moog, Bruno Jean
084c90d1-cfac-453e-96e6-4b2316d91c17
Craig, Christopher
64d661e3-1031-4ba9-a483-a86f650fd6c2
Sazio, Pier-John
0d6200b5-9947-469a-8e97-9147da8a7158
Thomas, Mike
9f7df52d-797e-4f0a-80c9-79c617fac86d
Hewak, Daniel W.
87c80070-c101-4f7a-914f-4cc3131e3db0
Moog, Bruno Jean
084c90d1-cfac-453e-96e6-4b2316d91c17
Craig, Christopher
64d661e3-1031-4ba9-a483-a86f650fd6c2
Sazio, Pier-John
0d6200b5-9947-469a-8e97-9147da8a7158
Thomas, Mike
9f7df52d-797e-4f0a-80c9-79c617fac86d
Hewak, Daniel W.
87c80070-c101-4f7a-914f-4cc3131e3db0

Moog, Bruno Jean, Craig, Christopher, Sazio, Pier-John, Thomas, Mike and Hewak, Daniel W. (2023) Ultra-thin (<20µm) zero-waste lithium ion conducting glass fibre fabrication using crucible drawing for solid-state battery applications. In Proceedings of the Optica Design and Fabrication Congress 2023 (IODC, OFT). Optica Publishing Group..

Record type: Conference or Workshop Item (Paper)

Abstract

Crucible drawing was employed to demonstrate the feasibility of zero-waste fabrication of Lithium Zirconia Silicate (LZS) glass fibres with diameters between 20 to 9 µm (±1 µm), used as an electrolyte in solid-state batteries.

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More information

Published date: 4 May 2023
Venue - Dates: Optica Design and Fabrication Congress 2023, , Quebec, Canada, 2023-06-04 - 2023-06-08
Related URLs:
Learn more about Zepler Institute for Photonics and Nanoelectronics research Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 481784
URI: http://eprints.soton.ac.uk/id/eprint/481784
PURE UUID: d105cd57-9f94-4b0a-8e23-a74d287e11ad
ORCID for Pier-John Sazio: ORCID iD orcid.org/0000-0002-6506-9266
ORCID for Daniel W. Hewak: ORCID iD orcid.org/0000-0002-2093-5773

Catalogue record

Date deposited: 07 Sep 2023 16:39
Last modified: 11 Apr 2024 01:37

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Contributors

Author: Bruno Jean Moog
Author: Christopher Craig
Author: Pier-John Sazio ORCID iD
Author: Mike Thomas
Author: Daniel W. Hewak ORCID iD

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