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Tailoring thermoelectric properties of nanostructured crystal silicon fabricated by infrared femtosecond laser direct writing

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The periodic nanostructuring of inner part of semiconductors can be successfully accomplished by the infrared ultrashort pulse laser with a double pulse configuration. Self-organized nanostructures inside semiconductor could be induced empirically only if it is indirect band gap semiconductor.The strained silicon regions with a width of about 100 nm are self-aligned parallel to the polarization direction of the first arriving pulses, despite of the polarization direction of the secondly arriving pulses. AFM inspections reveal that such strained silicon nanostructures exhibit high electric conductivity and low thermal conductivity. The formation mechanisms
would be interpreted in terms of the electrostrictive force through the interaction between electron-hole plasma and
phonon. Apart from the basic understanding, such nanostructured silicon will open the door to the fabrication of the
self-contained thermoelectric devices.

Keywords indirect band gap, infrared femtosecond laser, nanostructures, self-assembly, silicon, strain, thermoelectric effects

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Informasi Detail

Judul Seri

Phys. Status Solidi

No. Panggil

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Penerbit

: WILEY-VCH Verlag GmbH & Co. KGaA., 2015

Deskripsi Fisik

Phys. Status Solidi A 212, No. 4, 715–721 (2015)

Bahasa

English

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Tipe Isi

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Tipe Media

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Tipe Pembawa

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Edisi

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Subjek

FISIKA

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