schliessen

Filtern

 

Bibliotheken

Binary CuO/Co3O4 nanofibers for ultrafast and amplified electrochemical sensing of fructose

► Binary CuO/Co O nanofiber as active electrode material. ► Dramatically enhanced catalytic activity and direct fructose detection. ► Significantly lowered overpotential, ultrafast (1 s) and sensitive (18.988 μA mM ) response. Cobalt oxide-doped copper oxide composite nanofibers (CCNFs) were success... Full description

Journal Title: Electrochimica Acta 30 November 2011, Vol.56(27), pp.10191-10196
Main Author: Wang, Yang
Other Authors: Wang, Wen , Song, Wenbo
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 0013-4686 ; E-ISSN: 1873-3859 ; DOI: 10.1016/j.electacta.2011.09.001
Link: https://www.sciencedirect.com/science/article/pii/S0013468611013624
Zum Text:
SendSend as email Add to Book BagAdd to Book Bag
Staff View
recordid: elsevier_sdoi_10_1016_j_electacta_2011_09_001
title: Binary CuO/Co3O4 nanofibers for ultrafast and amplified electrochemical sensing of fructose
format: Article
creator:
  • Wang, Yang
  • Wang, Wen
  • Song, Wenbo
subjects:
  • Cuo/Co3o4 Nanofibers
  • Electrospun
  • Enzymeless
  • Fructose Sensor
  • Engineering
  • Chemistry
ispartof: Electrochimica Acta, 30 November 2011, Vol.56(27), pp.10191-10196
description: ► Binary CuO/Co O nanofiber as active electrode material. ► Dramatically enhanced catalytic activity and direct fructose detection. ► Significantly lowered overpotential, ultrafast (1 s) and sensitive (18.988 μA mM ) response. Cobalt oxide-doped copper oxide composite nanofibers (CCNFs) were successfully achieved via electrospinning followed by thermal treatment processes and then exploited as active electrode material for direct enzyme-free fructose detection. The morphology and the structure of as-prepared samples were investigated by X-ray diffraction spectrum (XRD) and scanning electron microscopy (SEM). The electrocatalytic activity of CCNFs films towards fructose oxidation and sensing performances were evaluated by conventional electrochemical techniques. Cyclic voltammetry (CV) and chronoamperometry ( − )...
language: eng
source:
identifier: ISSN: 0013-4686 ; E-ISSN: 1873-3859 ; DOI: 10.1016/j.electacta.2011.09.001
fulltext: fulltext
issn:
  • 0013-4686
  • 00134686
  • 1873-3859
  • 18733859
url: Link


@attributes
ID61367287
RANK0.07
NO1
SEARCH_ENGINEprimo_central_multiple_fe
SEARCH_ENGINE_TYPEPrimo Central Search Engine
LOCALfalse
PrimoNMBib
record
control
sourcerecordiddoi_10_1016_j_electacta_2011_09_001
sourceidelsevier_s
recordidTN_elsevier_sdoi_10_1016_j_electacta_2011_09_001
sourcesystemPC
dbid
0--K
1--M
2.~1
31B1
41RT
51~.
6457
74G.
87-5
98P~
109JN
11AABNK
12AAEDT
13AAKOC
14AAOAW
15AAQFI
16AARLI
17ABFNM
18ABNUV
19ABYKQ
20ACDAQ
21ACRLP
22ADECG
23ADEWK
24AEKER
25AFKWA
26AFTJW
27AGHFR
28AGUBO
29AGYEJ
30AHPOS
31AIKHN
32AITUG
33AJBFU
34AJOXV
35AJSZI
36AMFUW
37BLXMC
38ENUVR
39EO8
40EO9
41EP2
42EP3
43FDB
44FIRID
45FLBIZ
46FNPLU
47G-Q
48GBLVA
49J1W
50KOM
51OAUVE
52P-8
53P-9
54PC.
55Q38
56RPZ
57SDF
58SDG
59SDP
60SES
61SPC
62SSG
63SSK
64SSZ
65T5K
66~G-
pqid963849346
galeid270545080
display
typearticle
titleBinary CuO/Co3O4 nanofibers for ultrafast and amplified electrochemical sensing of fructose
creatorWang, Yang ; Wang, Wen ; Song, Wenbo
ispartofElectrochimica Acta, 30 November 2011, Vol.56(27), pp.10191-10196
identifier
subjectCuo/Co3o4 Nanofibers ; Electrospun ; Enzymeless ; Fructose Sensor ; Engineering ; Chemistry
description► Binary CuO/Co O nanofiber as active electrode material. ► Dramatically enhanced catalytic activity and direct fructose detection. ► Significantly lowered overpotential, ultrafast (1 s) and sensitive (18.988 μA mM ) response. Cobalt oxide-doped copper oxide composite nanofibers (CCNFs) were successfully achieved via electrospinning followed by thermal treatment processes and then exploited as active electrode material for direct enzyme-free fructose detection. The morphology and the structure of as-prepared samples were investigated by X-ray diffraction spectrum (XRD) and scanning electron microscopy (SEM). The electrocatalytic activity of CCNFs films towards fructose oxidation and sensing performances were evaluated by conventional electrochemical techniques. Cyclic voltammetry (CV) and chronoamperometry ( − )...
languageeng
source
version5
lds50peer_reviewed
links
openurl$$Topenurl_article
openurlfulltext$$Topenurlfull_article
backlink$$Uhttps://www.sciencedirect.com/science/article/pii/S0013468611013624$$EView_record_in_ScienceDirect_(Access_to_full_text_may_be_restricted)
search
creatorcontrib
0Wang, Yang
1Wang, Wen
2Song, Wenbo
titleBinary CuO/Co3O4 nanofibers for ultrafast and amplified electrochemical sensing of fructose
description
subject
0Cuo/Co3o4 Nanofibers
1Electrospun
2Enzymeless
3Fructose Sensor
4Engineering
5Chemistry
general
0English
1Elsevier Ltd
210.1016/j.electacta.2011.09.001
3ScienceDirect (Elsevier)
4ScienceDirect Journals (Elsevier)
sourceidelsevier_s
recordidelsevier_sdoi_10_1016_j_electacta_2011_09_001
issn
00013-4686
100134686
21873-3859
318733859
rsrctypearticle
creationdate2011
addtitleElectrochimica Acta
searchscope
0elsevier_full
1elsevier2
scope
0elsevier_full
1elsevier2
lsr44$$EView_record_in_ScienceDirect_(Access_to_full_text_may_be_restricted)
tmp01ScienceDirect Journals (Elsevier)
tmp02
0--K
1--M
2.~1
31B1
41RT
51~.
6457
74G.
87-5
98P~
109JN
11AABNK
12AAEDT
13AAKOC
14AAOAW
15AAQFI
16AARLI
17ABFNM
18ABNUV
19ABYKQ
20ACDAQ
21ACRLP
22ADECG
23ADEWK
24AEKER
25AFKWA
26AFTJW
27AGHFR
28AGUBO
29AGYEJ
30AHPOS
31AIKHN
32AITUG
33AJBFU
34AJOXV
35AJSZI
36AMFUW
37BLXMC
38ENUVR
39EO8
40EO9
41EP2
42EP3
43FDB
44FIRID
45FLBIZ
46FNPLU
47G-Q
48GBLVA
49J1W
50KOM
51OAUVE
52P-8
53P-9
54PC.
55Q38
56RPZ
57SDF
58SDG
59SDP
60SES
61SPC
62SSG
63SSK
64SSZ
65T5K
66~G-
startdate20111130
enddate20111130
lsr40Electrochimica Acta, 30 November 2011, Vol.56 (27), pp.10191-10196
doi10.1016/j.electacta.2011.09.001
citationpf 10191 pt 10196 vol 56 issue 27
lsr30VSR-Enriched:[galeid, pqid]
sort
titleBinary CuO/Co3O4 nanofibers for ultrafast and amplified electrochemical sensing of fructose
authorWang, Yang ; Wang, Wen ; Song, Wenbo
creationdate20111130
lso0120111130
facets
frbrgroupid6574584310506190123
frbrtype5
newrecords20190904
languageeng
topic
0Cuo/Co3o4 Nanofibers
1Electrospun
2Enzymeless
3Fructose Sensor
4Engineering
5Chemistry
collectionScienceDirect (Elsevier)
prefilterarticles
rsrctypearticles
creatorcontrib
0Wang, Yang
1Wang, Wen
2Song, Wenbo
jtitleElectrochimica Acta
creationdate2011
toplevelpeer_reviewed
delivery
delcategoryRemote Search Resource
fulltextfulltext
addata
aulast
0Wang
1Song
aufirst
0Yang
1Wen
2Wenbo
auinitY
auinit1Y
au
0Wang, Yang
1Wang, Wen
2Song, Wenbo
atitleBinary CuO/Co3O4 nanofibers for ultrafast and amplified electrochemical sensing of fructose
jtitleElectrochimica Acta
risdate20111130
volume56
issue27
spage10191
epage10196
pages10191-10196
issn0013-4686
eissn1873-3859
formatjournal
genrearticle
ristypeJOUR
abstract
pubElsevier Ltd
doi10.1016/j.electacta.2011.09.001
lad01Electrochimica Acta
date2011-11-30