Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery

Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery

Spinel LiMn2O4 (CA-EG mixture assisted), LiMn2O4 (CA assisted), LiMn2O4 (PA assisted), Cr-doped LiCrxMn2-xO4 and layered LiCo0.7Al0.3O2 (CA and PA assisted) cathode materials have been synthesized by a sol-gel method using organic acid as a chelating agent. This technique offers better homogeneity,...

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Main Author: Rahman, Mohd. Mokhlesur
Format: Thesis
Language:English
Published: 2006
Subjects:
Q Science (General)
QD Chemistry
Online Access:http://eprints.utm.my/id/eprint/2324/1/MohdMokhlesurRahmanMFS2006.pdf
http://eprints.utm.my/id/eprint/2324/
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Institution: Universiti Teknologi Malaysia
Language: English
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spelling my.utm.23242018-06-25T00:40:38Z http://eprints.utm.my/id/eprint/2324/ Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery Rahman, Mohd. Mokhlesur Q Science (General) QD Chemistry Spinel LiMn2O4 (CA-EG mixture assisted), LiMn2O4 (CA assisted), LiMn2O4 (PA assisted), Cr-doped LiCrxMn2-xO4 and layered LiCo0.7Al0.3O2 (CA and PA assisted) cathode materials have been synthesized by a sol-gel method using organic acid as a chelating agent. This technique offers better homogeneity, preferred surface morphology, reduced heat treatment conditions, sub-micron sized particles and better crystallinity. The dependence of the physiochemical properties of the powder materials on the various calcination temperatures and organic acid quantity have been extensively studied. Electrochemical behaviors of the prepared powder materials were analyzed using galvanostatic charge-discharge cycling studies in the voltage range 3.0-4.3 V (vs. Li metal) using 1 M LiPF6-EC/DMC as electrolyte. Materials LiMn2O4 (CA-EG mixture assisted), LiMn2O4 (CA assisted), LiMn2O4 (PA assisted), Cr-doped LiCrxMn2-xO4, LiCo0.7Al0.3O2 (CA assisted) and LiCo0.7Al0.3O2 (PA assisted) delivered initial discharge capacity of 29.66, 20.94, 41.65, 49.50, 97.34 and 74.43 mA h/g with the capacity retention of 71.4, 93.7, 90.6 , 91.6, 90.8 and 98.4 % of its initial capacity over only 3rd cycle, respectively. Coulombic efficiency for the materials of LiMn2O4 (CA-EG mixture assisted), LiMn2O4 (CA assisted), LiMn2O4 (PA assisted), Cr-doped LiCrxMn2-xO4, LiCo0.7Al0.3O2 (CA assisted) and LiCo0.7Al0.3O2 (PA assisted) were found to be 96.2, 89.18, 74.8, 97.6, 92.8 and 94.7 % after only three cycles, respectively. Electrochemical evaluation shows that LiCo0.7Al0.3O2 (CA assisted) materials exhibit higher initial discharge capacity whereas LiCo0.7Al0.3O2 (PA assisted) materials exhibit a better capacity retention and good coulombic efficiency 2006-09 Thesis NonPeerReviewed application/pdf en http://eprints.utm.my/id/eprint/2324/1/MohdMokhlesurRahmanMFS2006.pdf Rahman, Mohd. Mokhlesur (2006) Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery. Masters thesis, Universiti Teknologi Malaysia, Faculty of Science.
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic Q Science (General)
QD Chemistry
spellingShingle Q Science (General)
QD Chemistry
Rahman, Mohd. Mokhlesur
Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery
description Spinel LiMn2O4 (CA-EG mixture assisted), LiMn2O4 (CA assisted), LiMn2O4 (PA assisted), Cr-doped LiCrxMn2-xO4 and layered LiCo0.7Al0.3O2 (CA and PA assisted) cathode materials have been synthesized by a sol-gel method using organic acid as a chelating agent. This technique offers better homogeneity, preferred surface morphology, reduced heat treatment conditions, sub-micron sized particles and better crystallinity. The dependence of the physiochemical properties of the powder materials on the various calcination temperatures and organic acid quantity have been extensively studied. Electrochemical behaviors of the prepared powder materials were analyzed using galvanostatic charge-discharge cycling studies in the voltage range 3.0-4.3 V (vs. Li metal) using 1 M LiPF6-EC/DMC as electrolyte. Materials LiMn2O4 (CA-EG mixture assisted), LiMn2O4 (CA assisted), LiMn2O4 (PA assisted), Cr-doped LiCrxMn2-xO4, LiCo0.7Al0.3O2 (CA assisted) and LiCo0.7Al0.3O2 (PA assisted) delivered initial discharge capacity of 29.66, 20.94, 41.65, 49.50, 97.34 and 74.43 mA h/g with the capacity retention of 71.4, 93.7, 90.6 , 91.6, 90.8 and 98.4 % of its initial capacity over only 3rd cycle, respectively. Coulombic efficiency for the materials of LiMn2O4 (CA-EG mixture assisted), LiMn2O4 (CA assisted), LiMn2O4 (PA assisted), Cr-doped LiCrxMn2-xO4, LiCo0.7Al0.3O2 (CA assisted) and LiCo0.7Al0.3O2 (PA assisted) were found to be 96.2, 89.18, 74.8, 97.6, 92.8 and 94.7 % after only three cycles, respectively. Electrochemical evaluation shows that LiCo0.7Al0.3O2 (CA assisted) materials exhibit higher initial discharge capacity whereas LiCo0.7Al0.3O2 (PA assisted) materials exhibit a better capacity retention and good coulombic efficiency
format Thesis
author Rahman, Mohd. Mokhlesur
author_facet Rahman, Mohd. Mokhlesur
author_sort Rahman, Mohd. Mokhlesur
title Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery
title_short Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery
title_full Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery
title_fullStr Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery
title_full_unstemmed Lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery
title_sort lithium metal oxides (metal = manganese, chromium, cobalt, or aluminium) as cathode in lithium ion batery
publishDate 2006
url http://eprints.utm.my/id/eprint/2324/1/MohdMokhlesurRahmanMFS2006.pdf
http://eprints.utm.my/id/eprint/2324/
_version_ 1643643560753364992

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