Bibliographic.docx

Bibliographic.docx

《Bibliographic.docx》由会员分享，可在线阅读，更多相关《Bibliographic.docx（79页珍藏版）》请在冰豆网上搜索。

Bibliographic

1BibliographicInformation

MWCNT-basedAg2S-TiO2nanocompositesphotocatalyst:

ultrasound-assistedsynthesis,characterizationandenhancedcatalyticefficiency.Zhu,Lei;Meng,Ze-Da;Oh,Won-Chun.DepartmentofAdvancedMaterialsScience&Engineering,HanseoUniversity,Chungnam,S.Korea.JournalofNanomaterials（2012）,586526,10pp.Publisher:

HindawiPublishingCorp.,CODEN:

JNOABPISSN:

1687-4129.Journal;OnlineComputerFilewritteninEnglish.AN2012:

1116139CAPLUS

Abstract

MultiwalledcarbonnanotubebasednanoscaleAg2SandTiO2compositeshavesuccessfullysynthesizedviaafacileultrasound-assistedmethod.ThenanocompositeswerecharacterizedbyFouriertransformIR（FT-IR）spectroscopy,UV-visabsorptionspectra,BETsurfaceareameasurements,X-raydiffraction（XRD）andtransmissionelectronmicroscopy（TEM）.TheAg2S-TiO2/CNTnanocompositesexhibitedmuchhigherphotocatalyticactivitythanpureTiO2forthedegrdn.ofRhodamineB（Rh.B）underUVandvisiblelight.TheimprovedphotocatalyticactivitiesmaybeattributedtoincreasedadsorbabilityofRh.Bmols.andincreasedchargetransferrateinthepresenceofaone-dimensionalMWCNTnetwork.

Indexing--Section74（RadiationChemistry,Photochemistry,andPhotographicandOtherReprographicProcesses）

Citations

1）Elfeky,S;JournalofNanomaterials2011,2011,570438

2）Poliah,R;JournalofNanomaterials2011,2011,239289

3）Yu,J;PhysicalChemistryChemicalPhysics2011,13（8）,3491

4）Yu,J;Nanoscale2012,4（8）,2670

5）Xiaodan,Y;MaterialsCharacterization2006,57（4-5）,333

6）Su,H;JournalofMaterialsChemistry2001,11

（2）,684

7）Zhao,W;AppliedSurfaceScience2010,256（11）,3493

8）Zhu,L;ChineseJournalofCatalysis2012,33,254

9）Andrews,R;AccountsofChemicalResearch2002,35（12）,1008

10）Ruan,S;Polymer2003,44（19）,5643

11）Xu,Y;Polymer2005,46（3）,799

12）Wang,F;Carbon2005,43（8）,1716

13）Banerjee,S;AdvancedMaterials2004,16

（1）,34

14）Liu,Y;MaterialsChemistryandPhysics2005,91（2-3）,365

15）Kim,H;JournalofCrystalGrowth2003,255（1-2）,114

16）Cho,N;AdvancedMaterials2007,19

（2）,232

17）Cope,R;BritishJournalofAppliedPhysics1965,16（10）,1501

18）Hodes,G;Nature1976,261（5559）,403

19）Kryukov,A;TheoreticalandExperimentalChemistry2000,36

（2）,63

20）Robert,D;CatalysisToday2007,122（1-2）,20

21）Serp,P;AppliedCatalysisA2003,253

（2）,337

22）Du,J;JournalofPhysicalChemistryB2005,109（26）,12772

23）Chen,M;JournalofChemicalResearch2010,5,283

24）Oh,W;JournalofCeramicProcessingResearch2007,8（5）,316

25）Aviles,F;Carbon2009,47（13）,2970

26）Zhang,W;SolidStateIonics2000,130

（1）,111

27）Xie,Y;Nanotechnology2010,21

（1）,015703

28）Zhao,W;AdvancedMaterialsResearch2011,197,837

29）Zhu,L;ChineseJournalofCatalysis2011,32（6）,926

30）Li,Y;WaterResearch2006,40（6）,1119

31）Zhao,J;BMCCancer2005,5,6

32）Zhang,X;KoreanJournalofChemicalEngineering2011,28（5）,1241

2BibliographicInformation

Synthesisandcharacterizationsofpoly（3-hexylthiophene）andmodifiedcarbonnanotubecomposites.Karim,MohammadRezaul.CenterofExcellenceforResearchinEngineeringMaterials,CollegeofEngineering,KingSaudUniversity,Riyadh,SaudiArabia.JournalofNanomaterials（2012）,174353,8pp.Publisher:

HindawiPublishingCorp.,CODEN:

JNOABPISSN:

1687-4129.Journal;OnlineComputerFilewritteninEnglish.AN2012:

1116124CAPLUS

Abstract

Poly（3-hexylthiophene）andmodified（functionalizedandsilanized）multiwallcarbonnanotube（MWNT）nanocompositeshavebeenprepd.throughinsitupolymn.processinchloroformmediumwithFeCl3oxidantatroomtemp.ThecompositesarecharacterizedthroughFouriertransferIRspectroscopy（FT-IR）,RamanandX-raydiffraction（XRD）measurementstoprobethenatureofinteractionbetweenthemoieties.OpticalpropertiesofthecompositesaremeasuredfromUV-visible（UV-Vis）andphotoluminescence（PL）spectroscopy.Cond.ofthecompositesisfollowedbyfourprobetechniquestounderstandtheconductionmechanism.Thechange（ifany）inC=Csym.andantisym.stretchingfrequenciesinFT-IR,theshiftinGbandfrequenciesinRaman,anyalterationsinλmaxofUV-VisandPLspectroscopicmeasurementsaremonitoredwithmodifiedMWNTloadinginthepolymermatrix.

Indexing--Section37（PlasticsManufactureandProcessing）

Citations

1）Yu,G;Science1995,270（5243）,1789

2）Campos,L;ChemistryofMaterials2005,17（16）,4031

3）Huynh,W;Science2002,295（5564）,2425

4）Liu,J;JournaloftheAmericanChemicalSociety2004,126（21）,6550

5）Kymakis,E;AppliedPhysicsLetters2002,80

（1）,112

6）Kymakis,E;JournalofAppliedPhysics2003,93（3）,1764

7）Landi,B;ProgressinPhotovoltaics2005,13

（2）,165

8）Landia,B;SolarEnergyMaterialsandSolarCells2005,87,733

9）Alam,M;ChemistryofMaterials2004,16（23）,4647

10）Kietzke,T;ChemistryofMaterials2005,17（26）,6532

11）Manoj,A;JournalofAppliedPhysics2003,94（6）,4088

12）Geng,J;JournaloftheAmericanChemicalSociety2006,128（51）,16827

13）Karim,M;SyntheticMetals2005,151

（2）,131

14）Shaffer,M;ChemicalCommunications2002,18,2074

15）Karim,M;MaterialsChemistryandPhysics2008,112（3）,779

16）Liu,I;Macromolecules2004,37

（2）,283

17）Karim,M;MaterialsLetters2007,61（8-9）,1688

18）Kong,H;JournaloftheAmericanChemicalSociety2004,126

（2）,412

19）Zhao,B;AdvancedFunctionalMaterials2004,14

（1）,71

20）Karim,M;JournalofPolymerScienceA2006,44（18）,5283

21）Bolognesi,A;MacromolecularChemistryandPhysics2001,202（12）,2586

22）Chen,S;Macromolecules1992,25（23）,6081

23）Shiga,T;JournalofAppliedPolymerScience1996,62（6）,903

24）Tashiro,K;JournalofPolymerScienceB1991,29（10）,1223

25）Mardalen,J;SolidStateCommunications1991,77（5）,337

26）Hsu,W;Macromolecules1993,26（6）,1318

27）Andrews,R;Carbon2001,39（11）,1681

28）Huang,Y;Carbon2007,45（8）,1614

29）Zhang,J;JournalofPhysicalChemistryB2003,107（16）,3712

30）Li,X;Carbon2003,41,598

31）Yu,X;SurfaceandCoatingsTechnology2008,202（10）,2002

32）Qiao,X;SyntheticMetals2001,118（1-3）,89

33）Furukawa,Y;SyntheticMetals1987,18（1-3）,151

34）Trznadel,M;Macromolecules1998,31（15）,5051

35）Musumeci,A;Polymer2007,48（6）,1667

36）Kuila,B;Macromolecules2007,40

（2）,278

37）Liu,Y;Macromolecules2007,40（25）,8881

38）Wise,K;ChemicalPhysicsLetters2004,391（4-6）,207

39）Ovsyannikova,E;RussianJournalofElectrochemistry2005,41（4）,439

40）Babel,A;SyntheticMetals2005,148

（2）,169

41）Kymakis,E;SyntheticMetals2004,142（1-3）,161

42）Chen,J;JournaloftheAmericanChemicalSociety2002,124（31）,9034

43）Feng,W;Carbon2005,43（12）,2501

44）Colladet,K;Macromolecules2007,40

（1）,65

45）Mohammad,F;JournalofPhysicsD1996,29

（1）,195

46）Peng,H;JournaloftheAmericanChemicalSociety2008,130

（1）,42

47）Barrau,S;Macromolecules2003,36（14）,5187

3BibliographicInformation

Apeptidereceptor-basedbioelectronicnoseforthereal-timedeterminationofseafoodquality.Lim,JongHyun;Park,Juhun;Ahn,JungHo;Jin,HyeJun;Hong,Seunghun;Park,TaiHyun.SchoolofChemicalandBiologicalEngineering,SeoulNationalUniversity,Seoul,Biosensors&BioelectronicsAheadofPrint.Publisher:

ElsevierB.V.,CODEN:

BBIOE4ISSN:

0956-5663.JournalwritteninEnglish.AN2012:

1207981CAPLUS

Abstract

Wehereinreportapeptidereceptor-basedbioelectronicnose（PRBN）thatcandet.thequalityofseafoodinreal-timethroughmeasuringtheamt.oftrimethylamine（TMA）generatedfromspoiledseafood.ThePRBNwasdevelopedusingsinglewalled-carbonnanotubefield-effecttransistors（SWNT-FETs）functionalizedwitholfactoryreceptor-derivedpeptides（ORPs）whichcanrecognizeTMAanditallowedustosensitivelyandselectivelydetectTMAinreal-timeatconcns.aslowas10fM.Utilizingtheseproperties,wewereabletonotonlydet.thequalityofthreekindsofseafood（oyster,shrimp,andlobster）,butwerealsoabletodistinguishspoiledseafoodfromothertypesofspoiledfoodswithoutanypretreatmentprocesses.Esp.,theuseofsmallsyntheticpeptideratherthanthewholeproteinallowedPRBNstobesimplymanufd.throughasingle-stepprocessandtobereusedwithhighreproducibilityduetonorequirementoflipidbilayers.Furthermore,thePRBNwasproducedonaportablescalemakingiteffectivelyusefulforthefoodindustrywheretheon-sitemeasurementofseafoodqualityisrequired.

Indexing--Section17（FoodandFeedChemistry）

4BibliographicInformation

Thermalconductivityofagrapheneoxide-carbonnanotubehybrid/epoxycomposite.Im,Hyungu;Kim,Jooheon.SchoolofChemicalEngineeringandMaterialsScience,Chung-AngUniversity,Seoul,CarbonAheadofPrint.Publisher:

ElsevierLtd.,CODEN:

CRBNAHISSN:

0008-6223.JournalwritteninEnglish.AN2012:

1207821CAPLUS

Abstract

Thermallyconductivegrapheneoxide（GO）-multi-wallcarbonnanotube（MWCNT）/epoxycompositematerialswerefabricatedbyepoxywetting.ThepolarfunctionalityontheGOsurfaceallowedthepermeationoftheepoxyresinduetoasecondaryinteractionbetweenthem,whichallowedthefabricationofacompositecontg.ahighconcn.ofthishybridfiller.Thethermaltransportpropertiesofthecompositesweremaximizedat50wt.%offillerduetofixedporevol.fractioninfiltratedGOcake.Whenthetotalamt.offillerwasfixed50wt.%whilechangingtheamt.ofMWCNTs,amax.thermalcond.wasobtainedwiththeaddn.ofabout0.36wt.%ofMWCNTsinthefiller.Measuredthermalcond.washigherthanthepredictedvaluebasedonthebyMaxwell-Garnett（M-G）approxn.anddecreasedforMWCNTconcns