Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.

This project is divided into two main sections, that is to produce solid polymer electrolyte (SPE) as a proton conductor (H+) and to fabricate polymeric solid-state protonic battery with configuration of zinc (Zn)/SPE/manganese (IV) oxide (Mn02)' 1.0 g of chitosan was dissolved in 100 ml of 1 %...

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Bibliographic Details
Main Authors:	Mohamad, Ahmad Az'min, Aziz, Azizan
Format:	Monograph
Published:	Universiti Sains Malaysia 2007
Subjects:	TN1-997 Mining engineering. Metallurgy
Online Access:	http://eprints.usm.my/10221/

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author	Mohamad, Ahmad Az'min Aziz, Azizan
author_facet	Mohamad, Ahmad Az'min Aziz, Azizan
author_sort	Mohamad, Ahmad Az'min
building	USM Institutional Repository
collection	Online Access
description	This project is divided into two main sections, that is to produce solid polymer electrolyte (SPE) as a proton conductor (H+) and to fabricate polymeric solid-state protonic battery with configuration of zinc (Zn)/SPE/manganese (IV) oxide (Mn02)' 1.0 g of chitosan was dissolved in 100 ml of 1 % acetic acid solution. Projek ini dibahagikan kepada dua bahagian utama iaitu penghasilan elektrolit polimer pepejal (SPE) sebagai konduktor proton (H+) dan fabrikasi bateri proton keadaan pepejalpolimer dengan konfigurasi zink (Zn)/SPE/mangan dioksida (Mn02)' 1.0 g kitosan dilarutkan dalam 100 mllarutan asid asetik 1 %. Garam ammonium nitrat (NH4N03) dan bahan pemplastik etilena karbonat (EC) ditarnbahkan ke dalam larutan kitosan tersebut.
first_indexed	2025-11-15T15:31:51Z
format	Monograph
id	usm-10221
institution	Universiti Sains Malaysia
institution_category	Local University
last_indexed	2025-11-15T15:31:51Z
publishDate	2007
publisher	Universiti Sains Malaysia
recordtype	eprints
repository_type	Digital Repository
spelling	usm-102212017-09-07T07:07:07Z http://eprints.usm.my/10221/ Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes. Mohamad, Ahmad Az'min Aziz, Azizan TN1-997 Mining engineering. Metallurgy This project is divided into two main sections, that is to produce solid polymer electrolyte (SPE) as a proton conductor (H+) and to fabricate polymeric solid-state protonic battery with configuration of zinc (Zn)/SPE/manganese (IV) oxide (Mn02)' 1.0 g of chitosan was dissolved in 100 ml of 1 % acetic acid solution. Projek ini dibahagikan kepada dua bahagian utama iaitu penghasilan elektrolit polimer pepejal (SPE) sebagai konduktor proton (H+) dan fabrikasi bateri proton keadaan pepejalpolimer dengan konfigurasi zink (Zn)/SPE/mangan dioksida (Mn02)' 1.0 g kitosan dilarutkan dalam 100 mllarutan asid asetik 1 %. Garam ammonium nitrat (NH4N03) dan bahan pemplastik etilena karbonat (EC) ditarnbahkan ke dalam larutan kitosan tersebut. Universiti Sains Malaysia 2007 Monograph NonPeerReviewed Mohamad, Ahmad Az'min and Aziz, Azizan (2007) Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes. Project Report. Universiti Sains Malaysia.
spellingShingle	TN1-997 Mining engineering. Metallurgy Mohamad, Ahmad Az'min Aziz, Azizan Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.
title	Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.
title_full	Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.
title_fullStr	Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.
title_full_unstemmed	Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.
title_short	Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.
title_sort	development of zn-mn02 battery using chitosan-znci2. gel polymer electrolytes.
topic	TN1-997 Mining engineering. Metallurgy
url	http://eprints.usm.my/10221/

Development Of Zn-Mn02 Battery Using Chitosan-Znci2. Gel Polymer Electrolytes.

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