schliessen

Filtern

 

Bibliotheken

Bacteria-templated fabrication of a charge heterogeneous polymeric interface for highly specific bacterial recognition

Journal Title: Chem. Commun. 2017
Main Author: Bao, Han
Other Authors: Yang, Bin , Zhang, Xingwang , Lei, Lecheng , Li, Zhongjian
Format: Electronic Article Electronic Article
Language: English
Quelle: CrossRef
ID: ISSN: 1359-7345 ; E-ISSN: 1364-548X ; DOI: http://dx.doi.org/10.1039/C6CC09242J
Zum Text:
SendSend as email Add to Book BagAdd to Book Bag
Staff View
recordid: crossref10.1039/C6CC09242J
title: Bacteria-templated fabrication of a charge heterogeneous polymeric interface for highly specific bacterial recognition
format: Article
creator:
  • Bao, Han
  • Yang, Bin
  • Zhang, Xingwang
  • Lei, Lecheng
  • Li, Zhongjian
ispartof: Chem. Commun., 2017
description:
language: eng
source: CrossRef
identifier: ISSN: 1359-7345 ; E-ISSN: 1364-548X ; DOI: http://dx.doi.org/10.1039/C6CC09242J
fulltext: fulltext
issn:
  • 13597345
  • 1359-7345
  • 1364548X
  • 1364-548X
url: Link


@attributes
ID1746176368
RANK0.07
NO1
SEARCH_ENGINEprimo_central_multiple_fe
SEARCH_ENGINE_TYPEPrimo Central Search Engine
LOCALfalse
PrimoNMBib
record
control
sourcerecordid10.1039/C6CC09242J
sourceidcrossref
recordidTN_crossref10.1039/C6CC09242J
sourceformatXML
sourcesystemPC
display
typearticle
titleBacteria-templated fabrication of a charge heterogeneous polymeric interface for highly specific bacterial recognition
creatorBao, Han ; Yang, Bin ; Zhang, Xingwang ; Lei, Lecheng ; Li, Zhongjian
ispartofChem. Commun., 2017
identifier
languageeng
sourceCrossRef
lds412017
lds50peer_reviewed
links
openurl$$Topenurl_article
thumbnail
0$$TPCamazon_thumb
1$$TPCgoogle_thumb
openurlfulltext$$Topenurlfull_article
addlink$$Uhttp://exlibris-pub.s3.amazonaws.com/aboutCrossref.html$$EView_CrossRef_copyright_notice
search
creatorcontrib
0Bao, Han
1Yang, Bin
2Zhang, Xingwang
3Lei, Lecheng
4Li, Zhongjian
titleBacteria-templated fabrication of a charge heterogeneous polymeric interface for highly specific bacterial recognition
general
0English
110.1039/C6CC09242J
2CrossRef
sourceidcrossref
recordidcrossref10.1039/C6CC09242J
issn
013597345
11359-7345
21364548X
31364-548X
rsrctypearticle
addtitleChem. Commun.
searchscope
0crossref_rest
1CrossRef
2Crossref
3crossref
scope
0crossref_rest
1CrossRef
2Crossref
3crossref
lsr402017
lsr412017
lsr442017
lsr452017
tmp012
tmp022
creationdate2017
startdate20170101
enddate20171231
sort
titleBacteria-templated fabrication of a charge heterogeneous polymeric interface for highly specific bacterial recognition
authorBao, Han ; Yang, Bin ; Zhang, Xingwang ; Lei, Lecheng ; Li, Zhongjian
creationdate20170000
lso0120170000
facets
frbrgroupid4323110281271372256
frbrtype6
newrecords20170131
languageeng
creationdate2017
prefilterarticles
rsrctypearticles
creatorcontrib
0Bao, Han
1Yang, Bin
2Zhang, Xingwang
3Lei, Lecheng
4Li, Zhongjian
jtitleChem. Commun.
toplevelpeer_reviewed
delivery
delcategoryRemote Search Resource
fulltextfulltext
addata
aulast
0Bao
1Yang
2Zhang
3Lei
4Li
aufirst
0Han
1Bin
2Xingwang
3Lecheng
4Zhongjian
au
0Bao, Han
1Yang, Bin
2Zhang, Xingwang
3Lei, Lecheng
4Li, Zhongjian
atitleBacteria-templated fabrication of a charge heterogeneous polymeric interface for highly specific bacterial recognition
jtitleChem. Commun.
stitleChem. Commun.
date2017
risdate2017
adddate2017
issn1359-7345
eissn1364-548X
formatjournal
genrearticle
ristypeJOUR
doi10.1039/C6CC09242J
lad012
citing
0$$t=2$$K1=2007$$K4=5$$K6=464$$K7=nat rev microbiol$$K15=sintchenko$$K16=sintchenko$$K18=sintchenko
1$$t=2$$K1=2005$$K4=102$$K6=2567$$K7=proc natl acad sci u s$$K15=konstantinidis$$K16=konstantinidis$$K18=konstantinidis
2$$t=2$$K1=2013$$K4=13$$K6=4024$$K7=lab chip$$K15=bouguelia$$K16=bouguelia$$K18=bouguelia
3$$t=2$$K1=2010$$K4=20$$K6=2269$$K7=adv funct mater$$K15=massadivanir$$K16=massadivanir$$K18=massadivanir
4$$t=2$$K1=2012$$K4=24$$K6=1186$$K7=electroanalysis$$K15=luo$$K16=luo$$K18=luo
5$$t=2$$K1=2015$$K4=118$$K6=99$$K7=j microbiol methods$$K15=ang$$K16=ang$$K18=ang
6$$t=2$$K1=2015$$K4=16$$K6=1382$$K7=biomacromolecules$$K15=gaddes$$K16=gaddes$$K18=gaddes
7$$t=2$$K1=2016$$K4=12$$K6=1854$$K7=small$$K15=li$$K16=li
8$$t=2$$K1=2001$$K4=13$$K6=1480$$K7=adv mater$$K15=hayden$$K16=hayden$$K18=hayden
9$$t=2$$K1=2012$$K4=137$$K6=1495$$K7=analyst$$K15=schirhagl$$K16=schirhagl$$K18=schirhagl
10$$t=2$$K1=2016$$K4=34$$K6=30$$K7=biotechnol adv$$K15=iskierko$$K16=iskierko$$K18=iskierko
11$$t=2$$K1=2016$$K4=28$$K6=5349$$K7=adv mater$$K15=bole$$K16=bole$$K18=bole
12$$t=2$$K1=2013$$K4=5$$K6=8560$$K7=nanoscale$$K15=borovicka$$K16=borovicka$$K18=borovicka
13$$t=2$$K1=2012$$K4=6$$K6=4314$$K7=acs nano$$K15=ren$$K16=ren$$K18=ren
14$$t=2$$K1=2013$$K4=7$$K6=6031$$K7=acs nano$$K15=ren$$K16=ren$$K18=ren
15$$t=2$$K1=2014$$K4=6$$K6=20550$$K7=acs appl mater interfaces$$K15=hu$$K16=hu
16$$t=2$$K1=2015$$K4=209$$K6=714$$K7=sens actuators b$$K15=yilmaz$$K16=yilmaz$$K18=yilmaz
17$$t=2$$K1=2017$$K4=89$$K6=620$$K7=biosens bioelectron$$K15=roy$$K16=roy$$K18=roy
18$$t=2$$K1=2005$$K4=1$$K6=445$$K7=small$$K15=rozhok$$K16=rozhok$$K18=rozhok
19$$t=2$$K1=2010$$K4=11$$K6=1236$$K7=int j mol sci$$K15=cohen$$K16=cohen$$K18=cohen
20$$t=2$$K1=1996$$K4=118$$K6=8771$$K7=j am chem soc$$K15=aherne$$K16=aherne$$K18=aherne
21$$t=2$$K1=2014$$K4=53$$K6=10687$$K7=angew chem int ed$$K15=shen$$K16=shen$$K18=shen
22$$t=2$$K1=2014$$K4=86$$K6=250$$K7=anal chem$$K15=schirhagl$$K16=schirhagl$$K18=schirhagl
23$$t=2$$K1=2014$$K4=39$$K6=145$$K7=prog polym sci$$K15=li$$K16=li
24$$t=2$$K1=2013$$K4=1$$K6=2031$$K7=j mater chem b$$K15=sankarakumar$$K16=sankarakumar$$K18=sankarakumar
25$$t=2$$K1=2002$$K4=47$$K6=1$$K7=surf sci rep$$K15=poortinga$$K16=poortinga$$K18=poortinga
26$$t=2$$K1=2004$$K4=38$$K6=1777$$K7=environ sci technol$$K15=redman$$K16=redman$$K18=redman
27$$t=2$$K1=2006$$K4=188$$K6=2421$$K7=j bacteriol$$K15=vanmerode$$K16=vanmerode$$K18=vanmerode
28$$t=2$$K1=2015$$K4=7$$K6=8843$$K7=nanoscale$$K15=marliere$$K16=marliere$$K18=marliere
29$$t=2$$K1=2015$$K4=1$$K6=693$$K7=acs biomater sci eng$$K15=böhmler$$K16=böhmler$$K18=böhmler
30$$t=2$$K1=2002$$K4=18$$K6=1265$$K7=langmuir$$K15=jones$$K16=jones$$K18=jones
31$$t=2$$K1=2014$$K4=13$$K6=748$$K7=nat mater$$K15=magennis$$K16=magennis$$K18=magennis
32$$t=2$$K1=2008$$K4=20$$K6=335$$K7=adv mater$$K15=chen$$K16=chen$$K18=chen
33$$t=2$$K1=1999$$K4=14$$K6=105$$K7=colloids surf b$$K15=hermansson$$K16=hermansson$$K18=hermansson
34$$t=2$$K1=2011$$K4=7$$K6=9366$$K7=soft matter$$K15=lu$$K16=lu
35$$t=2$$K1=1998$$K4=95$$K6=11059$$K7=proc natl acad sci u s$$K15=razatos$$K16=razatos$$K18=razatos
36$$t=2$$K1=2013$$K4=4$$K6=1503$$K7=nat commun$$K15=cumbo$$K16=cumbo$$K18=cumbo
37$$t=2$$K1=2000$$K4=21$$K6=273$$K7=biomaterials$$K15=flemming$$K16=flemming$$K18=flemming
38$$t=2$$K1=2006$$K4=60$$K6=542$$K7=mol microbiol$$K15=doerrler$$K16=doerrler$$K18=doerrler
39$$t=2$$K1=2014$$K4=9$$K6=1049$$K7=nat protoc$$K15=beaussart$$K16=beaussart$$K18=beaussart
40$$t=2$$K1=2009$$K4=4$$K6=939$$K7=nat protoc$$K15=francius$$K16=francius$$K18=francius
41$$t=2$$K1=2001$$K4=17$$K6=5952$$K7=langmuir$$K15=mougin$$K16=mougin$$K18=mougin
42$$t=2$$K1=2014$$K4=24$$K6=4435$$K7=adv funct mater$$K15=swartjes$$K16=swartjes$$K18=swartjes
43$$t=2$$K1=2007$$K4=19$$K6=1239$$K7=electroanalysis$$K15=daniels$$K16=daniels$$K18=daniels
44$$t=2$$K1=2005$$K6=4267$$K7=chem commun$$K15=rodriguez$$K16=rodriguez$$K18=rodriguez