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Porous ZnMnO sub(3) plates prepared from Zn/Mn-sucrose composite as high-performance lithium-ion battery anodes

Porous ZnMnO sub(3) plates have been prepared by an initial formation of Zn/Mn-sucrose composite and subsequent calcination route. The influences of calcination temperatures on the structures and electrochemical performances of target ZnMnO sub(3) are clearly studied. At an optimal calcination tempe... Full description

Journal Title: Micro & Nano Letters September 2016, Vol.11(9), pp.494-497
Main Author: Zhao, Chenhao
Other Authors: Teng, Zhaoguo , Zhao, Dan'Ni , Hu, Zhibiao , Liu, Kaiyu
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: E-ISSN: 1750-0443 ; DOI: 10.1049/mnl.2016.0239
Link: http://search.proquest.com/docview/1855389892/?pq-origsite=primo
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title: Porous ZnMnO sub(3) plates prepared from Zn/Mn-sucrose composite as high-performance lithium-ion battery anodes
format: Article
creator:
  • Zhao, Chenhao
  • Teng, Zhaoguo
  • Zhao, Dan'Ni
  • Hu, Zhibiao
  • Liu, Kaiyu
subjects:
  • Rechargeable Batteries
  • Discharge
  • Plates
  • Anodes
  • Lithium-Ion Batteries
  • Nanoparticles
  • Optimization
  • Calcination
  • Applications (So)
  • Design Principles (Mt)
  • (An)
  • Secondary Cells
  • Electrochemical Electrodes
  • Current Density
  • Zinc Compounds
  • Nanoporous Materials
  • Nanoparticles
  • Electrochemistry
  • Lithium Compounds
  • Calcination
ispartof: Micro & Nano Letters, September 2016, Vol.11(9), pp.494-497
description: Porous ZnMnO sub(3) plates have been prepared by an initial formation of Zn/Mn-sucrose composite and subsequent calcination route. The influences of calcination temperatures on the structures and electrochemical performances of target ZnMnO sub(3) are clearly studied. At an optimal calcination temperature of 500[degrees]C, the ZnMnO sub(3) composed of numerous nanoparticles possesses an obvious plate-like structure and porous property, and a Brunauer-Emmett-Teller specific surface area of ~25.50 m super(2) g super(-1) and average pore size of ~19.69 nm can be reached. As lithium-ion battery anode, the optimal ZnMnO sub(3) delivers a reversible (second) discharge capacity of 709.6 mAh g super(-1) at 0.4 A g super(-1). After 100 cycles, a discharge capacity of 560.0 mAh g super(-1) can be retained. Even at a high current density of 1.2 A g super(-1), the sample still shows a discharge capacity of 403.1 mAh g super(-1). The good electrochemical performance of as-prepared...
language: eng
source:
identifier: E-ISSN: 1750-0443 ; DOI: 10.1049/mnl.2016.0239
fulltext: fulltext
issn:
  • 17500443
  • 1750-0443
url: Link


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titlePorous ZnMnO sub(3) plates prepared from Zn/Mn-sucrose composite as high-performance lithium-ion battery anodes
creatorZhao, Chenhao ; Teng, Zhaoguo ; Zhao, Dan'Ni ; Hu, Zhibiao ; Liu, Kaiyu
contributorZhao, Chenhao (correspondence author)
ispartofMicro & Nano Letters, September 2016, Vol.11(9), pp.494-497
identifierE-ISSN: 1750-0443 ; DOI: 10.1049/mnl.2016.0239
subjectRechargeable Batteries ; Discharge ; Plates ; Anodes ; Lithium-Ion Batteries ; Nanoparticles ; Optimization ; Calcination ; Applications (So) ; Design Principles (Mt) ; (An) ; Secondary Cells ; Electrochemical Electrodes ; Current Density ; Zinc Compounds ; Nanoporous Materials ; Nanoparticles ; Electrochemistry ; Lithium Compounds ; Calcination
descriptionPorous ZnMnO sub(3) plates have been prepared by an initial formation of Zn/Mn-sucrose composite and subsequent calcination route. The influences of calcination temperatures on the structures and electrochemical performances of target ZnMnO sub(3) are clearly studied. At an optimal calcination temperature of 500[degrees]C, the ZnMnO sub(3) composed of numerous nanoparticles possesses an obvious plate-like structure and porous property, and a Brunauer-Emmett-Teller specific surface area of ~25.50 m super(2) g super(-1) and average pore size of ~19.69 nm can be reached. As lithium-ion battery anode, the optimal ZnMnO sub(3) delivers a reversible (second) discharge capacity of 709.6 mAh g super(-1) at 0.4 A g super(-1). After 100 cycles, a discharge capacity of 560.0 mAh g super(-1) can be retained. Even at a high current density of 1.2 A g super(-1), the sample still shows a discharge capacity of 403.1 mAh g super(-1). The good electrochemical performance of as-prepared...
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titlePorous ZnMnO sub(3) plates prepared from Zn/Mn-sucrose composite as high-performance lithium-ion battery anodes
descriptionPorous ZnMnO sub(3) plates have been prepared by an initial formation of Zn/Mn-sucrose composite and subsequent calcination route. The influences of calcination temperatures on the structures and electrochemical performances of target ZnMnO sub(3) are clearly studied. At an optimal calcination temperature of 500[degrees]C, the ZnMnO sub(3) composed of numerous nanoparticles possesses an obvious plate-like structure and porous property, and a Brunauer-Emmett-Teller specific surface area of ~25.50 m super(2) g super(-1) and average pore size of ~19.69 nm can be reached. As lithium-ion battery anode, the optimal ZnMnO sub(3) delivers a reversible (second) discharge capacity of 709.6 mAh g super(-1) at 0.4 A g super(-1). After 100 cycles, a discharge capacity of 560.0 mAh g super(-1) can be retained. Even at a high current density of 1.2 A g super(-1), the sample still shows a discharge capacity of 403.1 mAh g super(-1). The good electrochemical performance of as-prepared...
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3Anodes
4Lithium-Ion Batteries
5Nanoparticles
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11Secondary Cells
12Electrochemical Electrodes
13Current Density
14Zinc Compounds
15Nanoporous Materials
16Electrochemistry
17Lithium Compounds
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titlePorous ZnMnO sub(3) plates prepared from Zn/Mn-sucrose composite as high-performance lithium-ion battery anodes
authorZhao, Chenhao ; Teng, Zhaoguo ; Zhao, Dan'Ni ; Hu, Zhibiao ; Liu, Kaiyu
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9Design Principles (Mt)
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abstractPorous ZnMnO sub(3) plates have been prepared by an initial formation of Zn/Mn-sucrose composite and subsequent calcination route. The influences of calcination temperatures on the structures and electrochemical performances of target ZnMnO sub(3) are clearly studied. At an optimal calcination temperature of 500[degrees]C, the ZnMnO sub(3) composed of numerous nanoparticles possesses an obvious plate-like structure and porous property, and a Brunauer-Emmett-Teller specific surface area of ~25.50 m super(2) g super(-1) and average pore size of ~19.69 nm can be reached. As lithium-ion battery anode, the optimal ZnMnO sub(3) delivers a reversible (second) discharge capacity of 709.6 mAh g super(-1) at 0.4 A g super(-1). After 100 cycles, a discharge capacity of 560.0 mAh g super(-1) can be retained. Even at a high current density of 1.2 A g super(-1), the sample still shows a discharge capacity of 403.1 mAh g super(-1). The good electrochemical performance of as-prepared...
doi10.1049/mnl.2016.0239
urlhttp://search.proquest.com/docview/1855389892/
date2016-09-01