CELLULOSE-BASED BINDERS FOR HIGH-ENERGY-DENSITY LITHIUM-SULFUR BATTERIES

HUANG, YINGYI

doi:10.26180/21579654.v1

CELLULOSE-BASED BINDERS FOR HIGH-ENERGY-DENSITY LITHIUM-SULFUR BATTERIES

thesis

posted on 2022-11-18, 03:29 authored by YINGYI HUANG

This dissertation explores the Lithium-Sulfur battery as one chemistry that promises a safer, higher energy density, cheaper, and more sustainable storage technology. Cellulose, being a versatile, inexpensive and tunable material, can be used to prepare stable battery electrodes. In this thesis, the focus is on exploring cellulose-based binders in the fabrication of high-performing sulfur cathodes. Built on the extensive experience acquired while working on several cellulose-based binder systems, the final project represents a unique and detailed insight into the successful fabrication and cycling of high-energy density pouch cell prototypes.

History

Campus location

Australia

Principal supervisor

Mainak Majumder

Additional supervisor 1

Matthew R. Hill

Additional supervisor 2

Mahdokht Shaibani

Year of Award

2022

Department, School or Centre

Mechanical and Aerospace Engineering

Additional Institution or Organisation

Commonwealth Scientific and Industrial Research Organisation (CSIRO)

Course

Doctor of Philosophy

Degree Type

DOCTORATE

Faculty

Faculty of Engineering

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Keywords

Lithium sulfur battery Energy storage system Renewable energy Batteries

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In Copyright

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CELLULOSE-BASED BINDERS FOR HIGH-ENERGY-DENSITY LITHIUM-SULFUR BATTERIES

History

Campus location

Principal supervisor

Additional supervisor 1

Additional supervisor 2

Year of Award

Department, School or Centre

Additional Institution or Organisation

Course

Degree Type

Faculty

Usage metrics

Categories

Keywords

Licence

Exports