【摘 要】
:
Metal/Semiconductor hybrid nanostructure is promising for its unique opt-electrical performance enhanced by surface plasmon resonance(SPR).However,the noble metals(Au,Ag,etc.)usually used for plasmoni
【机 构】
:
Hunan city university,Yiyang,Hunan,China,413000;National center for nanoscience and technology,Beiji
【出 处】
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The 6th International Conference on Nanoscience and Technolo
论文部分内容阅读
Metal/Semiconductor hybrid nanostructure is promising for its unique opt-electrical performance enhanced by surface plasmon resonance(SPR).However,the noble metals(Au,Ag,etc.)usually used for plasmonic are not cost-effective.In contrast,Bismuth is a cheap but promising metal with high plasmon-excitation efficiency comparable with Au.Here,the high crystalline Bi-nanorod/Si-nanodot hybrid structure is prepared by alternated sputtering of Bi and Si.FDTD simulation shows that the Bi-nanorod/Si-nanodot hybrid structure possesses red-shifted SPR resonance,in respect to that of Bi-nanorod.Some interesting SPR properties of Bi-nanorod/Si-nanodot hybrid structure including the split of longitudinal SPR mode is observed.Such hybrid-nanostructure could be useful in thermoelectric,sensor,battery electrodes,photodetector,etc.
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