TiO_(2)/X(X=Au and Ag)nanolayers are fabricated by depositing TiO_(2)films using rf magnetron sputtering on thin quartz substrates embedded with Au and Ag nanoparticles.Enhancement of light absorption of the nanostruc...TiO_(2)/X(X=Au and Ag)nanolayers are fabricated by depositing TiO_(2)films using rf magnetron sputtering on thin quartz substrates embedded with Au and Ag nanoparticles.Enhancement of light absorption of the nanostructural layers is observed.These plasmonic and non-plasmonic materials are ordered in geometric arrangements with dimensions that are fractions of the wavelength of light.The light absorption enhancement of synthesized structure in comparison to TiO_(2)is originated from near-field enhancement caused by the plasmonic effect of metallic nanoparticles,which can be demonstrated by the optical absorption spectra.We show that plasmon modes can exist for the infrared region of the optical spectrum.Also,we analyze the optical properties of the metal-insulator films,in order to clarify the role of metal inclusions in the TiO_(2)dielectric matrix.Optical band gaps of the nanolayer films are calculated by using Tauc’s relation,and the𝑜values of optical band gaps with the variation composition are found from 1.80 to 3.69eV.Band gap narrowing and absorption in the visible spectral region induced by the incorporation of TiO_(2)/X(X=Au and Ag)nanolayers enable the design of nanostructured thin films to be achieved for photocatalysts and solar energy converters.展开更多
文摘TiO_(2)/X(X=Au and Ag)nanolayers are fabricated by depositing TiO_(2)films using rf magnetron sputtering on thin quartz substrates embedded with Au and Ag nanoparticles.Enhancement of light absorption of the nanostructural layers is observed.These plasmonic and non-plasmonic materials are ordered in geometric arrangements with dimensions that are fractions of the wavelength of light.The light absorption enhancement of synthesized structure in comparison to TiO_(2)is originated from near-field enhancement caused by the plasmonic effect of metallic nanoparticles,which can be demonstrated by the optical absorption spectra.We show that plasmon modes can exist for the infrared region of the optical spectrum.Also,we analyze the optical properties of the metal-insulator films,in order to clarify the role of metal inclusions in the TiO_(2)dielectric matrix.Optical band gaps of the nanolayer films are calculated by using Tauc’s relation,and the𝑜values of optical band gaps with the variation composition are found from 1.80 to 3.69eV.Band gap narrowing and absorption in the visible spectral region induced by the incorporation of TiO_(2)/X(X=Au and Ag)nanolayers enable the design of nanostructured thin films to be achieved for photocatalysts and solar energy converters.
