1.贵金属纳米材料形貌对LSPR的影响470488500514550600633PrismHeight=(c)(sin60°)Excit.(nm)470488o500514550600633EdgeLength=(C)6008001000400Thickness=(c)Wavelength(nm)Small2009,5,No.6,64666433
33 Small 2009, 5, No. 6, 646–664 形貌对LSPR的影响 1. 贵金属纳米材料
1.贵金属纳米材料组分对LSPR的影响0.28Gold:0%0.24Gold:25%—Gold:50%0.20+Gold:75%o-Gold:100%(n'e)0.16Ag:Au 90:100.12Ag-Au80:20Ag:Au70:30Ag:Au60:40os0.08Ag:Au50:50Ag:Au40:60Ag:Au30:700.6Ag:Au 20:800.04Ag-Au 10:900.003004005006007008000.2Wavelength(nm)0.0+400450550600500660700350wavelength/nmGreenChem..2006.8.34-38::J.Mater.Chem.B.2015.3.465434PhysicaE27(2005)296-301
1. 贵金属纳米材料 34 组分对LSPR的影响 Green Chem., 2006, 8, 34–38; J. Mater. Chem. B, 2015,3, 4654 Physica E 27 (2005) 296–301
.贵金属纳米材料组分对LSPR的影响a2.0AuRodAu@Ag with thin Ag shellAu@Agwith thickAgshellAg shell thickness is increasing1.5(cne)eoueqiosqyAu@Ag21.0eak30.5Au@Ag1peakAuRod0.0400500600700800900300100Wavelength (nm)JournalofMaterialsChemistryC,2015,3(23):6035-6045.35
1. 贵金属纳米材料 35 组分对LSPR的影响 Journal of Materials Chemistry C, 2015,3(23): 6035-6045
1.贵金属纳米材料组分对LSPR的影响a1ab8000rea04=t=11nmAu.nanorodAuAU2500AgcoatedAunanorod7000ht=t=9nm20006000ee('ne)5000()os1500ost,=t=7nm4000Ag.=t=5nm100030002000t,t =3nm500-t,=t=1nm1000AgTLa=t=Onm0-e300400800500600700900600300400500700800Wavelength(nm)Wavelength(nm)Gold Bulletin, 2014,47(1-2): 47-5536
1. 贵金属纳米材料 36 组分对LSPR的影响 Gold Bulletin, 2014,47(1-2): 47-55
1.贵金属纳米材料局域介电环境对LSPR的影响1.0LA01.0佳0.80.60.42.5e-140.2osssoooe0.2FAir (n=1.00)600640680720100011001200Water(n=1.33)2e-14wavelength (nm)wavelength(nm)—Silica(n=1.5)C(ose1.5e-14601e-14405e-15203005006004000Wavelength(nm)1.351.401.45Refractiveindexhttps://nanocomposix.com/pages/silver-nanoparticles-optical-properties#target37Langmuir,2008,24(10):5233-5237
1. 贵金属纳米材料 37 局域介电环境对LSPR的影响 https://nanocomposix.com/pages/silver-nanoparticles-optical-properties#target Langmuir, 2008,24(10): 5233-5237