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The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries

A zinc-air (Zn-air) battery was fabricated using porous Zn anode, an air cathode, and 6 M KOH-sago gel electrolyte. The porous Zn anode was prepared by mixing Zn powder and agar binder at different concentrations to achieve the desired conductivity and physical properties. Agar is an abundant...

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Main Author: Masri, Mohamad Najmi
Format: Thesis
Language:English
Published: 2013
Subjects:
TN1-997 Mining engineering. Metallurgy
Online Access:http://eprints.usm.my/43815/1/Mohamad%20Najmi%20Masri24.pdf
http://eprints.usm.my/43815/
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spelling my.usm.eprints.43815 http://eprints.usm.my/43815/ The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries Masri, Mohamad Najmi TN1-997 Mining engineering. Metallurgy A zinc-air (Zn-air) battery was fabricated using porous Zn anode, an air cathode, and 6 M KOH-sago gel electrolyte. The porous Zn anode was prepared by mixing Zn powder and agar binder at different concentrations to achieve the desired conductivity and physical properties. Agar is an abundant natural polymer that does not require tedious and costly processing or preparation. Agar is also a gel-forming environmental friendly material. Meanwhile, the presence of KOH causes the growth of ZnO needle structures to cover the Zn-active material. Zn-agar binder without KOH produced the highest discharge capacity of 505 mAhg1. By contrast, the addition of KOH reduced the discharge capacity. The introduction of Super P improved the electrochemical performance of the batteries. The advantages of using Super P in batteries include high purity, large area, and highly structured body. The use of Super P additive in porous Zn anode enhanced the Zn-air battery discharge capacity because of the efficient and better voltage stability obtained from such an anode. The specific discharge capacity and power density of Zn anode with 2 wt% Super P were 776 mAhg1 and 20 mWcm2, respectively. Morphological images and structural properties were also analyzed to support these observations. Super P acted as a bridge in the Zn powders and improved the electrochemical performance of the Zn-air batteries. 2013-05 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/43815/1/Mohamad%20Najmi%20Masri24.pdf Masri, Mohamad Najmi (2013) The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries. PhD thesis, Universiti Sains Malaysia.
institution Universiti Sains Malaysia
building Hamzah Sendut Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Sains Malaysia
content_source USM Institutional Repository
url_provider http://eprints.usm.my/
language English
topic TN1-997 Mining engineering. Metallurgy
spellingShingle TN1-997 Mining engineering. Metallurgy
Masri, Mohamad Najmi
The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries
description A zinc-air (Zn-air) battery was fabricated using porous Zn anode, an air cathode, and 6 M KOH-sago gel electrolyte. The porous Zn anode was prepared by mixing Zn powder and agar binder at different concentrations to achieve the desired conductivity and physical properties. Agar is an abundant natural polymer that does not require tedious and costly processing or preparation. Agar is also a gel-forming environmental friendly material. Meanwhile, the presence of KOH causes the growth of ZnO needle structures to cover the Zn-active material. Zn-agar binder without KOH produced the highest discharge capacity of 505 mAhg1. By contrast, the addition of KOH reduced the discharge capacity. The introduction of Super P improved the electrochemical performance of the batteries. The advantages of using Super P in batteries include high purity, large area, and highly structured body. The use of Super P additive in porous Zn anode enhanced the Zn-air battery discharge capacity because of the efficient and better voltage stability obtained from such an anode. The specific discharge capacity and power density of Zn anode with 2 wt% Super P were 776 mAhg1 and 20 mWcm2, respectively. Morphological images and structural properties were also analyzed to support these observations. Super P acted as a bridge in the Zn powders and improved the electrochemical performance of the Zn-air batteries.
format Thesis
author Masri, Mohamad Najmi
author_facet Masri, Mohamad Najmi
author_sort Masri, Mohamad Najmi
title The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries
title_short The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries
title_full The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries
title_fullStr The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries
title_full_unstemmed The Study Of Agar Binder And Super P Additive In Porous Zinc Anode For Zinc-Air Batteries
title_sort study of agar binder and super p additive in porous zinc anode for zinc-air batteries
publishDate 2013
url http://eprints.usm.my/43815/1/Mohamad%20Najmi%20Masri24.pdf
http://eprints.usm.my/43815/
_version_ 1643710841528254464
score 13.209306

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