schliessen

Filtern

 

Bibliotheken

V sub(2) O sub(5) nanoflowers assembled by nanorods as cathode material for lithium-ion batteries

Three-dimensional V sub(2) O sub(5) nanoflowers (V sub(2) O sub(5)-NFs) have been synthesised by a simple two-step process, with a water bath method and thermal treatment. Each NF with the size of 2-3 [mu]m is assembled by about 2000 nanorods and the diameter of each nanorod is around 80 nm. As cath... Full description

Journal Title: Micro & Nano Letters December 2015, Vol.10(12), pp.686-688
Main Author: Huang, Jianfeng
Other Authors: Qiao, Xiaoning , Xu, Zhanwei , Ouyang, Haibo , Li, Jiayin
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: E-ISSN: 1750-0443 ; DOI: 10.1049/mnl.2015.0314
Link: http://search.proquest.com/docview/1825527951/?pq-origsite=primo
Zum Text:
SendSend as email Add to Book BagAdd to Book Bag
Staff View
recordid: proquest1825527951
title: V sub(2) O sub(5) nanoflowers assembled by nanorods as cathode material for lithium-ion batteries
format: Article
creator:
  • Huang, Jianfeng
  • Qiao, Xiaoning
  • Xu, Zhanwei
  • Ouyang, Haibo
  • Li, Jiayin
subjects:
  • Rechargeable Batteries
  • Cathodes
  • Three Dimensional
  • Nanorods
  • Disintegration
  • Transport
  • Lithium-Ion Batteries
  • Nanostructure
  • Applications (So)
  • Design Principles (Mt)
  • (An)
  • Liquid Phase Deposition
  • Electrochemical Electrodes
  • Secondary Cells
  • Electrochemistry
  • Self-Assembly
  • Vanadium Compounds
  • Nanorods
  • Thermal Treatment
  • Current Density
  • Water Bath Method
  • Three-Dimensional V2o5 Nanoflower Assembly
  • Cathode Material
  • Two-Step Process
  • Self-Assemble Nanostructure
  • Size 2 Mum to 3 Mum
  • V2o5
  • Reversible Capacity
  • Capacity Loss
  • Nanorods
  • High Reversible Capacity
  • Lithium-Ion Batteries
  • Enhanced Electrochemical Properties
ispartof: Micro & Nano Letters, December 2015, Vol.10(12), pp.686-688
description: Three-dimensional V sub(2) O sub(5) nanoflowers (V sub(2) O sub(5)-NFs) have been synthesised by a simple two-step process, with a water bath method and thermal treatment. Each NF with the size of 2-3 [mu]m is assembled by about 2000 nanorods and the diameter of each nanorod is around 80 nm. As cathode material for lithium-ion batteries, the V sub(2) O sub(5)-NFs exhibit high reversible capacities of 293 and 272 mAh g super(-1) at current densities of 30 and 100 mA g super(-1). Even at 600 mA g super(-1), they display a reversible capacity of 105 mAh g super(-1) with a capacity loss of 0.39% per cycle. The enhanced electrochemical properties are attributed to the self-assemble nanostructure that allows for the reversible transport of Li super(+) without the disintegration of the structure.
language: eng
source:
identifier: E-ISSN: 1750-0443 ; DOI: 10.1049/mnl.2015.0314
fulltext: fulltext
issn:
  • 17500443
  • 1750-0443
url: Link


@attributes
ID777084693
RANK0.07
NO1
SEARCH_ENGINEprimo_central_multiple_fe
SEARCH_ENGINE_TYPEPrimo Central Search Engine
LOCALfalse
PrimoNMBib
record
control
sourcerecordid1825527951
sourceidproquest
recordidTN_proquest1825527951
sourcesystemOther
pqid1825527951
display
typearticle
titleV sub(2) O sub(5) nanoflowers assembled by nanorods as cathode material for lithium-ion batteries
creatorHuang, Jianfeng ; Qiao, Xiaoning ; Xu, Zhanwei ; Ouyang, Haibo ; Li, Jiayin
contributorHuang, Jianfeng (correspondence author)
ispartofMicro & Nano Letters, December 2015, Vol.10(12), pp.686-688
identifierE-ISSN: 1750-0443 ; DOI: 10.1049/mnl.2015.0314
subjectRechargeable Batteries ; Cathodes ; Three Dimensional ; Nanorods ; Disintegration ; Transport ; Lithium-Ion Batteries ; Nanostructure ; Applications (So) ; Design Principles (Mt) ; (An) ; Liquid Phase Deposition ; Electrochemical Electrodes ; Secondary Cells ; Electrochemistry ; Self-Assembly ; Vanadium Compounds ; Nanorods ; Thermal Treatment ; Current Density ; Water Bath Method ; Three-Dimensional V2o5 Nanoflower Assembly ; Cathode Material ; Two-Step Process ; Self-Assemble Nanostructure ; Size 2 Mum to 3 Mum ; V2o5 ; Reversible Capacity ; Capacity Loss ; Nanorods ; High Reversible Capacity ; Lithium-Ion Batteries ; Enhanced Electrochemical Properties
descriptionThree-dimensional V sub(2) O sub(5) nanoflowers (V sub(2) O sub(5)-NFs) have been synthesised by a simple two-step process, with a water bath method and thermal treatment. Each NF with the size of 2-3 [mu]m is assembled by about 2000 nanorods and the diameter of each nanorod is around 80 nm. As cathode material for lithium-ion batteries, the V sub(2) O sub(5)-NFs exhibit high reversible capacities of 293 and 272 mAh g super(-1) at current densities of 30 and 100 mA g super(-1). Even at 600 mA g super(-1), they display a reversible capacity of 105 mAh g super(-1) with a capacity loss of 0.39% per cycle. The enhanced electrochemical properties are attributed to the self-assemble nanostructure that allows for the reversible transport of Li super(+) without the disintegration of the structure.
languageeng
source
version3
lds50peer_reviewed
links
openurl$$Topenurl_article
openurlfulltext$$Topenurlfull_article
backlink$$Uhttp://search.proquest.com/docview/1825527951/?pq-origsite=primo$$EView_record_in_ProQuest_(subscribers_only)
search
creatorcontrib
0Huang, Jianfeng
1Qiao, Xiaoning
2Xu, Zhanwei
3Ouyang, Haibo
4Li, Jiayin
titleV sub(2) O sub(5) nanoflowers assembled by nanorods as cathode material for lithium-ion batteries
descriptionThree-dimensional V sub(2) O sub(5) nanoflowers (V sub(2) O sub(5)-NFs) have been synthesised by a simple two-step process, with a water bath method and thermal treatment. Each NF with the size of 2-3 [mu]m is assembled by about 2000 nanorods and the diameter of each nanorod is around 80 nm. As cathode material for lithium-ion batteries, the V sub(2) O sub(5)-NFs exhibit high reversible capacities of 293 and 272 mAh g super(-1) at current densities of 30 and 100 mA g super(-1). Even at 600 mA g super(-1), they display a reversible capacity of 105 mAh g super(-1) with a capacity loss of 0.39% per cycle. The enhanced electrochemical properties are attributed to the self-assemble nanostructure that allows for the reversible transport of Li super(+) without the disintegration of the structure.
subject
0Rechargeable Batteries
1Cathodes
2Three Dimensional
3Nanorods
4Disintegration
5Transport
6Lithium-Ion Batteries
7Nanostructure
8Applications (So)
9Design Principles (Mt)
10(An)
11Liquid Phase Deposition
12Electrochemical Electrodes
13Secondary Cells
14Electrochemistry
15Self-Assembly
16Vanadium Compounds
17Thermal Treatment
18Current Density
19Water Bath Method
20Three-Dimensional V2o5 Nanoflower Assembly
21Cathode Material
22Two-Step Process
23Self-Assemble Nanostructure
24Size 2 Mum to 3 Mum
25V2o5
26Reversible Capacity
27Capacity Loss
28High Reversible Capacity
29Enhanced Electrochemical Properties
3084
3161
32Yes
33liquid phase deposition
34electrochemical electrodes
35secondary cells
36electrochemistry
37self-assembly
38vanadium compounds
39nanorods
40thermal treatment
41current density
42water bath method
43three-dimensional V2O5 nanoflower assembly
44cathode material
45two-step process
46self-assemble nanostructure
47size 2 mum to 3 mum
48V2O5
49reversible capacity
50capacity loss
51high reversible capacity
52lithium-ion batteries
53enhanced electrochemical properties
general
0English
110.1049/mnl.2015.0314
2ANTE: Abstracts in New Technology & Engineering
3Solid State and Superconductivity Abstracts
4Mechanical & Transportation Engineering Abstracts
5Advanced Technologies Database with Aerospace
6Engineering Research Database
7Technology Research Database
8ProQuest Engineering Collection
9ProQuest Advanced Technologies & Aerospace Collection
10ProQuest Technology Collection
11ProQuest SciTech Collection
12Advanced Technologies & Aerospace Database
13Materials Science & Engineering Database
14SciTech Premium Collection
15Technology Collection
sourceidproquest
recordidproquest1825527951
issn
017500443
11750-0443
rsrctypearticle
creationdate2015
addtitleMicro & Nano Letters
searchscope
01007421
11007481
21007526
31007944
410000012
510000013
610000015
710000022
810000041
910000045
1010000053
1110000120
1210000195
1310000203
1410000209
1510000233
1610000250
1710000260
1810000265
19proquest
scope
01007421
11007481
21007526
31007944
410000012
510000013
610000015
710000022
810000041
910000045
1010000053
1110000120
1210000195
1310000203
1410000209
1510000233
1610000250
1710000260
1810000265
19proquest
lsr43
01007421false
11007481false
21007526false
31007944false
410000012false
510000013false
610000015false
710000022false
810000041false
910000045false
1010000053false
1110000120false
1210000195false
1310000203false
1410000209false
1510000233false
1610000250false
1710000260false
1810000265false
contributorHuang, Jianfeng
startdate20151201
enddate20151201
citationpf 686 pt 688 vol 10 issue 12
lsr30VSR-Enriched:[pqid]
sort
titleV sub(2) O sub(5) nanoflowers assembled by nanorods as cathode material for lithium-ion batteries
authorHuang, Jianfeng ; Qiao, Xiaoning ; Xu, Zhanwei ; Ouyang, Haibo ; Li, Jiayin
creationdate20151201
lso0120151201
facets
frbrgroupid5811940864980225835
frbrtype5
languageeng
creationdate2015
topic
0Rechargeable Batteries
1Cathodes
2Three Dimensional
3Nanorods
4Disintegration
5Transport
6Lithium-Ion Batteries
7Nanostructure
8Applications (So)
9Design Principles (Mt)
10(An)
11Liquid Phase Deposition
12Electrochemical Electrodes
13Secondary Cells
14Electrochemistry
15Self-Assembly
16Vanadium Compounds
17Thermal Treatment
18Current Density
19Water Bath Method
20Three-Dimensional V2o5 Nanoflower Assembly
21Cathode Material
22Two-Step Process
23Self-Assemble Nanostructure
24Size 2 Mum to 3 Mum
25V2o5
26Reversible Capacity
27Capacity Loss
28High Reversible Capacity
29Enhanced Electrochemical Properties
collection
0ANTE: Abstracts in New Technology & Engineering
1Solid State and Superconductivity Abstracts
2Mechanical & Transportation Engineering Abstracts
3Advanced Technologies Database with Aerospace
4Engineering Research Database
5Technology Research Database
6ProQuest Engineering Collection
7ProQuest Advanced Technologies & Aerospace Collection
8ProQuest Technology Collection
9ProQuest SciTech Collection
10Advanced Technologies & Aerospace Database
11Materials Science & Engineering Database
12SciTech Premium Collection
13Technology Collection
prefilterarticles
rsrctypearticles
creatorcontrib
0Huang, Jianfeng
1Qiao, Xiaoning
2Xu, Zhanwei
3Ouyang, Haibo
4Li, Jiayin
jtitleMicro & Nano Letters
toplevelpeer_reviewed
delivery
delcategoryRemote Search Resource
fulltextfulltext
addata
aulast
0Huang
1Qiao
2Xu
3Ouyang
4Li
aufirst
0Jianfeng
1Xiaoning
2Zhanwei
3Haibo
4Jiayin
au
0Huang, Jianfeng
1Qiao, Xiaoning
2Xu, Zhanwei
3Ouyang, Haibo
4Li, Jiayin
addauHuang, Jianfeng
atitleV sub(2) O sub(5) nanoflowers assembled by nanorods as cathode material for lithium-ion batteries
jtitleMicro & Nano Letters
risdate20151201
volume10
issue12
spage686
epage688
pages686-688
eissn1750-0443
formatjournal
genrearticle
ristypeJOUR
abstractThree-dimensional V sub(2) O sub(5) nanoflowers (V sub(2) O sub(5)-NFs) have been synthesised by a simple two-step process, with a water bath method and thermal treatment. Each NF with the size of 2-3 [mu]m is assembled by about 2000 nanorods and the diameter of each nanorod is around 80 nm. As cathode material for lithium-ion batteries, the V sub(2) O sub(5)-NFs exhibit high reversible capacities of 293 and 272 mAh g super(-1) at current densities of 30 and 100 mA g super(-1). Even at 600 mA g super(-1), they display a reversible capacity of 105 mAh g super(-1) with a capacity loss of 0.39% per cycle. The enhanced electrochemical properties are attributed to the self-assemble nanostructure that allows for the reversible transport of Li super(+) without the disintegration of the structure.
doi10.1049/mnl.2015.0314
urlhttp://search.proquest.com/docview/1825527951/
date2015-12-01