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Sub-diffraction laser synthesis of silicon nanowires.


ABSTRACT: We demonstrate synthesis of silicon nanowires of tens of nanometers via laser induced chemical vapor deposition. These nanowires with diameters as small as 60?nm are produced by the interference between incident laser radiation and surface scattered radiation within a diffraction limited spot, which causes spatially confined, periodic heating needed for high resolution chemical vapor deposition. By controlling the intensity and polarization direction of the incident radiation, multiple parallel nanowires can be simultaneously synthesized. The nanowires are produced on a dielectric substrate with controlled diameter, length, orientation, and the possibility of in-situ doping, and therefore are ready for device fabrication. Our method offers rapid one-step fabrication of nano-materials and devices unobtainable with previous CVD methods.

SUBMITTER: Mitchell JI 

PROVIDER: S-EPMC3904146 | biostudies-literature | 2014 Jan

REPOSITORIES: biostudies-literature

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Sub-diffraction laser synthesis of silicon nanowires.

Mitchell James I JI   Zhou Nan N   Nam Woongsik W   Traverso Luis M LM   Xu Xianfan X  

Scientific reports 20140128


We demonstrate synthesis of silicon nanowires of tens of nanometers via laser induced chemical vapor deposition. These nanowires with diameters as small as 60 nm are produced by the interference between incident laser radiation and surface scattered radiation within a diffraction limited spot, which causes spatially confined, periodic heating needed for high resolution chemical vapor deposition. By controlling the intensity and polarization direction of the incident radiation, multiple parallel  ...[more]

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