schliessen

Filtern

 

Bibliotheken

Efficient Hydrogen-Generation CuO/Co^sub 3^O^sub 4^ Heterojunction Nanofibers for Sensitive Detection of Cancer Cells by Portable Pressure Meter

Portable, low-cost, and quantitative detection of cancer cells at home and in the field has the potential to revolutionize medical diagnostics. We first report the design and synthesis of highly efficient folic-acid-conjugated hydrogen-generation tube-in-tube CuO/Co3O4 heterojunction nanofibers for... Full description

Journal Title: Analytical Chemistry Aug 1, 2017, Vol.89(15), p.8140
Main Author: Ding, Erli
Other Authors: Hai, Jun , Li, Tianrong , Wu, Jie , Chen, Fengjuan , Wen, Yin , Wang, Baodui , Lu, Xiaoquan
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 00032700 ; E-ISSN: 15206882
Link: http://search.proquest.com/docview/1941332964/?pq-origsite=primo
Zum Text:
SendSend as email Add to Book BagAdd to Book Bag
Staff View
recordid: proquest1941332964
title: Efficient Hydrogen-Generation CuO/Co^sub 3^O^sub 4^ Heterojunction Nanofibers for Sensitive Detection of Cancer Cells by Portable Pressure Meter
format: Article
creator:
  • Ding, Erli
  • Hai, Jun
  • Li, Tianrong
  • Wu, Jie
  • Chen, Fengjuan
  • Wen, Yin
  • Wang, Baodui
  • Lu, Xiaoquan
subjects:
  • Efficiency
  • Hydrogen
  • Nanoparticles
  • Fibers
  • Cancer
  • Cells
  • Pressure
  • Hydrogen
  • Cancer
  • Nanofibers
  • Copper
  • Oxides
  • Acids
  • Folic Acid
  • Cancer
  • Light Irradiation
  • Folic Acid
  • Folic Acid
  • Recognition
  • Pressure
ispartof: Analytical Chemistry, Aug 1, 2017, Vol.89(15), p.8140
description: Portable, low-cost, and quantitative detection of cancer cells at home and in the field has the potential to revolutionize medical diagnostics. We first report the design and synthesis of highly efficient folic-acid-conjugated hydrogen-generation tube-in-tube CuO/Co3O4 heterojunction nanofibers for highly sensitive and rapid recognition of cancer cells through a pressure signal under visible-light irradiation. The resultant nanofibers can dramatically enhance the hydrogen-generation activity of ammonia borane under visible-light irradiation. Such hydrogen-generation reaction can translate a molecular recognition event between folic acid and folate receptor to measurable pressure signal readout through a low-cost and portable pressure meter for target cancer cell detection. Limits of detection (LODs) down to 50 cells mL-1 in only 15 min can be achieved. This result is superior to those of the other reported methods, indicating the superiority of the new pressure-based sensor in terms of...
language: eng
source:
identifier: ISSN: 00032700 ; E-ISSN: 15206882
fulltext: fulltext
issn:
  • 00032700
  • 0003-2700
  • 15206882
  • 1520-6882
url: Link


@attributes
ID1840532362
RANK0.06999999
NO1
SEARCH_ENGINEprimo_central_multiple_fe
SEARCH_ENGINE_TYPEPrimo Central Search Engine
LOCALfalse
PrimoNMBib
record
control
sourcerecordid1941332964
sourceidproquest
recordidTN_proquest1941332964
sourcesystemPC
pqid1941332964
galeid505639146
display
typearticle
titleEfficient Hydrogen-Generation CuO/Co^sub 3^O^sub 4^ Heterojunction Nanofibers for Sensitive Detection of Cancer Cells by Portable Pressure Meter
creatorDing, Erli ; Hai, Jun ; Li, Tianrong ; Wu, Jie ; Chen, Fengjuan ; Wen, Yin ; Wang, Baodui ; Lu, Xiaoquan
ispartofAnalytical Chemistry, Aug 1, 2017, Vol.89(15), p.8140
identifierISSN: 00032700 ; E-ISSN: 15206882
subjectEfficiency ; Hydrogen ; Nanoparticles ; Fibers ; Cancer ; Cells ; Pressure ; Hydrogen ; Cancer ; Nanofibers ; Copper ; Oxides ; Acids ; Folic Acid ; Cancer ; Light Irradiation ; Folic Acid ; Folic Acid ; Recognition ; Pressure
descriptionPortable, low-cost, and quantitative detection of cancer cells at home and in the field has the potential to revolutionize medical diagnostics. We first report the design and synthesis of highly efficient folic-acid-conjugated hydrogen-generation tube-in-tube CuO/Co3O4 heterojunction nanofibers for highly sensitive and rapid recognition of cancer cells through a pressure signal under visible-light irradiation. The resultant nanofibers can dramatically enhance the hydrogen-generation activity of ammonia borane under visible-light irradiation. Such hydrogen-generation reaction can translate a molecular recognition event between folic acid and folate receptor to measurable pressure signal readout through a low-cost and portable pressure meter for target cancer cell detection. Limits of detection (LODs) down to 50 cells mL-1 in only 15 min can be achieved. This result is superior to those of the other reported methods, indicating the superiority of the new pressure-based sensor in terms of...
languageeng
source
version5
lds50peer_reviewed
links
openurl$$Topenurl_article
openurlfulltext$$Topenurlfull_article
backlink$$Uhttp://search.proquest.com/docview/1941332964/?pq-origsite=primo$$EView_record_in_ProQuest_(subscribers_only)
search
creatorcontrib
0Ding, Erli
1Hai, Jun
2Li, Tianrong
3Wu, Jie
4Chen, Fengjuan
5Wen, Yin
6Wang, Baodui
7Lu, Xiaoquan
titleEfficient Hydrogen-Generation CuO/Co^sub 3^O^sub 4^ Heterojunction Nanofibers for Sensitive Detection of Cancer Cells by Portable Pressure Meter
descriptionPortable, low-cost, and quantitative detection of cancer cells at home and in the field has the potential to revolutionize medical diagnostics. We first report the design and synthesis of highly efficient folic-acid-conjugated hydrogen-generation tube-in-tube CuO/Co3O4 heterojunction nanofibers for highly sensitive and rapid recognition of cancer cells through a pressure signal under visible-light irradiation. The resultant nanofibers can dramatically enhance the hydrogen-generation activity of ammonia borane under visible-light irradiation. Such hydrogen-generation reaction can translate a molecular recognition event between folic acid and folate receptor to measurable pressure signal readout through a low-cost and portable pressure meter for target cancer cell detection. Limits of detection (LODs) down to 50 cells mL-1 in only 15 min can be achieved. This result is superior to those of the other reported methods, indicating the superiority of the new pressure-based sensor in terms of...
subject
0Efficiency
1Hydrogen
2Nanoparticles
3Fibers
4Cancer
5Cells
6Pressure
7Nanofibers
8Copper
9Oxides
10Acids
11Folic Acid
12Light Irradiation
13Recognition
general
0English
1American Chemical Society
2ProQuest Science Journals
3Science Database (Alumni edition)
4ProQuest Pharma Collection
5Electronics and Communications Abstracts
6Engineered Materials Abstracts
7Aerospace Database
8Aluminium Industry Abstracts
9ANTE: Abstracts in New Technology & Engineering
10Civil Engineering Abstracts
11Copper Technical Reference Library
12Corrosion Abstracts
13Solid State and Superconductivity Abstracts
14Ceramic Abstracts
15Materials Business File
16Mechanical & Transportation Engineering Abstracts
17METADEX
18Materials Science Database
19Research Library China
20Earth, Atmospheric & Aquatic Science Database (ProQuest)
21Advanced Technologies Database with Aerospace
22Engineering Research Database
23Materials Research Database
24Technology Research Database
25ProQuest Research Library
26ProQuest Biological Science Collection
27ProQuest Central
28ProQuest Earth Science Collection
29ProQuest Engineering Collection
30ProQuest Environmental Science Collection
31ProQuest Advanced Technologies & Aerospace Collection
32ProQuest Materials Science Collection
33ProQuest Natural Science Collection
34Polymer Science Collection
35ProQuest Technology Collection
36Research Library (Alumni edition)
37ProQuest Computer Science Collection
38ProQuest SciTech Collection
39Computer and Information Systems Abstracts
40Advanced Technologies & Aerospace Database
41Agricultural & Environmental Science Database
42Biological Science Database
43Earth, Atmospheric & Aquatic Science Database
44Materials Science & Engineering Database
45Natural Science Collection
46ProQuest Central (new)
47ProQuest Central K-12
48ProQuest Central Korea
49Research Library Prep
50SciTech Premium Collection
51Technology Collection
52ProQuest Central Essentials
53ProQuest Central China
54ProQuest One Academic
55Environmental Science Index (ProQuest)
56Biological Science Index (ProQuest)
57Advanced Technologies & Aerospace Index (ProQuest)
58Materials Science Index (ProQuest)
59Engineering Index (ProQuest)
60Environmental Science Collection (ProQuest)
61Materials Science Collection (ProQuest)
62Engineering Collection (ProQuest)
sourceidproquest
recordidproquest1941332964
issn
000032700
10003-2700
215206882
31520-6882
rsrctypearticle
creationdate2017
addtitleAnalytical Chemistry
searchscope
01000283
11005631
21005660
31006759
41006765
51006815
61006993
71007015
81007389
91007393
101007416
111007419
121007421
131007443
141007450
151007454
161007455
171007456
181007481
191007488
201007490
211007493
221007524
231007526
241007528
251007538
261007844
271007851
281007902
291007945
301008008
311008044
321008886
331009127
341009384
351009715
3610000002
3710000004
3810000005
3910000006
4010000012
4110000013
4210000014
4310000015
4410000022
4510000025
4610000034
4710000038
4810000039
4910000040
5010000041
5110000043
5210000045
5310000049
5410000050
5510000052
5610000053
5710000064
5810000070
5910000118
6010000120
6110000154
6210000164
6310000195
6410000198
6510000199
6610000200
6710000201
6810000203
6910000209
7010000217
7110000233
7210000234
7310000238
7410000244
7510000250
7610000253
7710000255
7810000256
7910000257
8010000258
8110000259
8210000260
8310000265
8410000268
8510000281
8610000300
8710000348
8810000349
8910000350
9010000351
9110000352
9210000353
9310000354
9410000355
9510000356
9610000360
97proquest
scope
01000283
11005631
21005660
31006759
41006765
51006815
61006993
71007015
81007389
91007393
101007416
111007419
121007421
131007443
141007450
151007454
161007455
171007456
181007481
191007488
201007490
211007493
221007524
231007526
241007528
251007538
261007844
271007851
281007902
291007945
301008008
311008044
321008886
331009127
341009384
351009715
3610000002
3710000004
3810000005
3910000006
4010000012
4110000013
4210000014
4310000015
4410000022
4510000025
4610000034
4710000038
4810000039
4910000040
5010000041
5110000043
5210000045
5310000049
5410000050
5510000052
5610000053
5710000064
5810000070
5910000118
6010000120
6110000154
6210000164
6310000195
6410000198
6510000199
6610000200
6710000201
6810000203
6910000209
7010000217
7110000233
7210000234
7310000238
7410000244
7510000250
7610000253
7710000255
7810000256
7910000257
8010000258
8110000259
8210000260
8310000265
8410000268
8510000281
8610000300
8710000348
8810000349
8910000350
9010000351
9110000352
9210000353
9310000354
9410000355
9510000356
9610000360
97proquest
lsr43
01000283false
11005631false
21005660false
31006759false
41006765false
51006815false
61006993false
71007015false
81007389false
91007393false
101007416false
111007419false
121007421false
131007443false
141007450false
151007454false
161007455false
171007456false
181007481false
191007488false
201007490false
211007493false
221007524false
231007526false
241007528false
251007538false
261007844false
271007851false
281007902false
291007945false
301008008false
311008044false
321008886false
331009127false
341009384false
351009715false
3610000002false
3710000004false
3810000005false
3910000006false
4010000012false
4110000013false
4210000014false
4310000015false
4410000022false
4510000025false
4610000034false
4710000038false
4810000039false
4910000040false
5010000041false
5110000043false
5210000045false
5310000049false
5410000050false
5510000052false
5610000053false
5710000064false
5810000070false
5910000118false
6010000120false
6110000154false
6210000164false
6310000195false
6410000198false
6510000199false
6610000200false
6710000201false
6810000203false
6910000209false
7010000217false
7110000233false
7210000234false
7310000238false
7410000244false
7510000250false
7610000253false
7710000255false
7810000256false
7910000257false
8010000258false
8110000259false
8210000260false
8310000265false
8410000268false
8510000281false
8610000300false
8710000348false
8810000349false
8910000350false
9010000351false
9110000352false
9210000353false
9310000354false
9410000355false
9510000356false
9610000360false
startdate20170801
enddate20170801
citationpf 8140 vol 89 issue 15
lsr30VSR-Enriched:[pages, doi, pqid, orcidid, galeid]
sort
titleEfficient Hydrogen-Generation CuO/Co^sub 3^O^sub 4^ Heterojunction Nanofibers for Sensitive Detection of Cancer Cells by Portable Pressure Meter
authorDing, Erli ; Hai, Jun ; Li, Tianrong ; Wu, Jie ; Chen, Fengjuan ; Wen, Yin ; Wang, Baodui ; Lu, Xiaoquan
creationdate20170801
lso0120170801
facets
frbrgroupid-5399113177527128293
frbrtype5
newrecords20170926
languageeng
creationdate2017
topic
0Efficiency
1Hydrogen
2Nanoparticles
3Fibers
4Cancer
5Cells
6Pressure
7Nanofibers
8Copper
9Oxides
10Acids
11Folic Acid
12Light Irradiation
13Recognition
collection
0ProQuest Science Journals
1Science Database (Alumni edition)
2ProQuest Pharma Collection
3Electronics and Communications Abstracts
4Engineered Materials Abstracts
5Aerospace Database
6Aluminium Industry Abstracts
7ANTE: Abstracts in New Technology & Engineering
8Civil Engineering Abstracts
9Copper Technical Reference Library
10Corrosion Abstracts
11Solid State and Superconductivity Abstracts
12Ceramic Abstracts
13Materials Business File
14Mechanical & Transportation Engineering Abstracts
15METADEX
16Materials Science Database
17Research Library China
18Earth, Atmospheric & Aquatic Science Database (ProQuest)
19Advanced Technologies Database with Aerospace
20Engineering Research Database
21Materials Research Database
22Technology Research Database
23ProQuest Research Library
24ProQuest Biological Science Collection
25ProQuest Central
26ProQuest Earth Science Collection
27ProQuest Engineering Collection
28ProQuest Environmental Science Collection
29ProQuest Advanced Technologies & Aerospace Collection
30ProQuest Materials Science Collection
31ProQuest Natural Science Collection
32Polymer Science Collection
33ProQuest Technology Collection
34Research Library (Alumni edition)
35ProQuest Computer Science Collection
36ProQuest SciTech Collection
37Computer and Information Systems Abstracts
38Advanced Technologies & Aerospace Database
39Agricultural & Environmental Science Database
40Biological Science Database
41Earth, Atmospheric & Aquatic Science Database
42Materials Science & Engineering Database
43Natural Science Collection
44ProQuest Central (new)
45ProQuest Central K-12
46ProQuest Central Korea
47Research Library Prep
48SciTech Premium Collection
49Technology Collection
50ProQuest Central Essentials
51ProQuest Central China
52ProQuest One Academic
53Environmental Science Index (ProQuest)
54Biological Science Index (ProQuest)
55Advanced Technologies & Aerospace Index (ProQuest)
56Materials Science Index (ProQuest)
57Engineering Index (ProQuest)
58Environmental Science Collection (ProQuest)
59Materials Science Collection (ProQuest)
60Engineering Collection (ProQuest)
prefilterarticles
rsrctypearticles
creatorcontrib
0Ding, Erli
1Hai, Jun
2Li, Tianrong
3Wu, Jie
4Chen, Fengjuan
5Wen, Yin
6Wang, Baodui
7Lu, Xiaoquan
jtitleAnalytical Chemistry
toplevelpeer_reviewed
delivery
delcategoryRemote Search Resource
fulltextfulltext
addata
aulast
0Ding
1Hai
2Li
3Wu
4Chen
5Wen
6Wang
7Lu
aufirst
0Erli
1Jun
2Tianrong
3Jie
4Fengjuan
5Yin
6Baodui
7Xiaoquan
au
0Ding, Erli
1Hai, Jun
2Li, Tianrong
3Wu, Jie
4Chen, Fengjuan
5Wen, Yin
6Wang, Baodui
7Lu, Xiaoquan
atitleEfficient Hydrogen-Generation CuO/Co^sub 3^O^sub 4^ Heterojunction Nanofibers for Sensitive Detection of Cancer Cells by Portable Pressure Meter
jtitleAnalytical Chemistry
risdate20170801
volume89
issue15
spage8140
issn00032700
eissn15206882
formatjournal
genrearticle
ristypeJOUR
abstractPortable, low-cost, and quantitative detection of cancer cells at home and in the field has the potential to revolutionize medical diagnostics. We first report the design and synthesis of highly efficient folic-acid-conjugated hydrogen-generation tube-in-tube CuO/Co3O4 heterojunction nanofibers for highly sensitive and rapid recognition of cancer cells through a pressure signal under visible-light irradiation. The resultant nanofibers can dramatically enhance the hydrogen-generation activity of ammonia borane under visible-light irradiation. Such hydrogen-generation reaction can translate a molecular recognition event between folic acid and folate receptor to measurable pressure signal readout through a low-cost and portable pressure meter for target cancer cell detection. Limits of detection (LODs) down to 50 cells mL-1 in only 15 min can be achieved. This result is superior to those of the other reported methods, indicating the superiority of the new pressure-based sensor in terms of...
copWashington
pubAmerican Chemical Society
urlhttp://search.proquest.com/docview/1941332964/
pages8140-8147
doi10.1021/acs.analchem.7b01951
orcidid0000-0003-1600-6557
date2017-08-01