Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery

Ionic conductive polymer electrolyte may bring the lithium battery technology to the next level by replacing the current dry (paste form) and liquid cell type of battery. Polymer electrolyte is a promising material for the ever-growing need for high-density electrochemical device applications, namel...

Full description

Saved in:
Bibliographic Details
Main Author: Ng, Bee Chew
Format: Thesis
Published: 2013
Subjects:
Tags: Add Tag
No Tags, Be the first to tag this record!
id my-mmu-ep.5757
record_format uketd_dc
spelling my-mmu-ep.57572014-09-29T09:51:13Z Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery 2013-03 Ng, Bee Chew QD Chemistry Ionic conductive polymer electrolyte may bring the lithium battery technology to the next level by replacing the current dry (paste form) and liquid cell type of battery. Polymer electrolyte is a promising material for the ever-growing need for high-density electrochemical device applications, namely, high-density rechargeable batteries. The field of polymer electrolyte has gone through several stages, namely, dry solid system, polymer gel and polymer composite. Polymer gel and polymer composite electrolyte have shown conductivity with the highest value of 10-3 Scm-1. However, the dry solid system still suffers from poor conductivity with a range of 10-5 Scm-1, but they are safer than the polymer gel and polymer composite due to the absence of any organic solvents, which are harmful to the environments. In this research work, the effects of lithium salt, plasticizer and filler on Polycaprolactone (PCL) based solid polymer electrolyte were studied. 2013-03 Thesis http://shdl.mmu.edu.my/5757/ http://library.mmu.edu.my/diglib/onlinedb/dig_lib.php masters Multimedia University Faculty of Engineering
institution Multimedia University
collection MMU Institutional Repository
topic QD Chemistry
spellingShingle QD Chemistry
Ng, Bee Chew
Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery
description Ionic conductive polymer electrolyte may bring the lithium battery technology to the next level by replacing the current dry (paste form) and liquid cell type of battery. Polymer electrolyte is a promising material for the ever-growing need for high-density electrochemical device applications, namely, high-density rechargeable batteries. The field of polymer electrolyte has gone through several stages, namely, dry solid system, polymer gel and polymer composite. Polymer gel and polymer composite electrolyte have shown conductivity with the highest value of 10-3 Scm-1. However, the dry solid system still suffers from poor conductivity with a range of 10-5 Scm-1, but they are safer than the polymer gel and polymer composite due to the absence of any organic solvents, which are harmful to the environments. In this research work, the effects of lithium salt, plasticizer and filler on Polycaprolactone (PCL) based solid polymer electrolyte were studied.
format Thesis
qualification_level Master's degree
author Ng, Bee Chew
author_facet Ng, Bee Chew
author_sort Ng, Bee Chew
title Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery
title_short Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery
title_full Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery
title_fullStr Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery
title_full_unstemmed Development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery
title_sort development of biodegradable polymer electrolyte for nanocomposite lithium sulfur battery
granting_institution Multimedia University
granting_department Faculty of Engineering
publishDate 2013
_version_ 1747829587280134144