Preparation and properties of a novel near infrared photovoltaic detector single-crystal material

Linghang Wang; Wanqi Jie; Yang Yang

doi:10.1088/1742-6596/152/1/012010

Preparation and properties of a novel near infrared photovoltaic detector single-crystal material

Linghang Wang, Wanqi Jie, Yang Yang

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

Abstract

A new photoelectronic semiconductor crystal, mercury indium telluride (MIT), with dimensions of 15mm in diameter and 175mm in length has been successfully grown by using the vertical Bridgman method (VB) at the optimized growth conditions. The crystal was determined through the power X-ray diffraction to be defect zinc-blende structure with the space group F43 _m . The transmittance spectra from 2.5 to 25μm shows high middle and far-infrared transmittance of 50∼55%, which decreases gradually with the increase of wavenumber due to the lattice absorption and free carriers absorption. Hall measurements at room temperature show that the resistivity, carrier density and mobility of the MIT crystal are 4.79×10² Ωcm, 2.83×10¹³ cm^-3 and 4.60×10 ² cm²V^-1s^-1, respectively. The reduction of carrier mobility and the increase of the resistivity are related to the adding of In₂Te₃ into HgTe, which changes the energy band structure of the crystal.

Original language	English
Article number	012010
Journal	Journal of Physics: Conference Series
Volume	152
DOIs	https://doi.org/10.1088/1742-6596/152/1/012010
State	Published - 2009

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title = "Preparation and properties of a novel near infrared photovoltaic detector single-crystal material",

abstract = "A new photoelectronic semiconductor crystal, mercury indium telluride (MIT), with dimensions of 15mm in diameter and 175mm in length has been successfully grown by using the vertical Bridgman method (VB) at the optimized growth conditions. The crystal was determined through the power X-ray diffraction to be defect zinc-blende structure with the space group F43 m . The transmittance spectra from 2.5 to 25μm shows high middle and far-infrared transmittance of 50∼55%, which decreases gradually with the increase of wavenumber due to the lattice absorption and free carriers absorption. Hall measurements at room temperature show that the resistivity, carrier density and mobility of the MIT crystal are 4.79×102 Ωcm, 2.83×1013 cm-3 and 4.60×10 2 cm2V-1s-1, respectively. The reduction of carrier mobility and the increase of the resistivity are related to the adding of In2Te3 into HgTe, which changes the energy band structure of the crystal.",

author = "Linghang Wang and Wanqi Jie and Yang Yang",

year = "2009",

doi = "10.1088/1742-6596/152/1/012010",

language = "英语",

volume = "152",

journal = "Journal of Physics: Conference Series",

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T1 - Preparation and properties of a novel near infrared photovoltaic detector single-crystal material

AU - Wang, Linghang

AU - Jie, Wanqi

AU - Yang, Yang

PY - 2009

Y1 - 2009

N2 - A new photoelectronic semiconductor crystal, mercury indium telluride (MIT), with dimensions of 15mm in diameter and 175mm in length has been successfully grown by using the vertical Bridgman method (VB) at the optimized growth conditions. The crystal was determined through the power X-ray diffraction to be defect zinc-blende structure with the space group F43 m . The transmittance spectra from 2.5 to 25μm shows high middle and far-infrared transmittance of 50∼55%, which decreases gradually with the increase of wavenumber due to the lattice absorption and free carriers absorption. Hall measurements at room temperature show that the resistivity, carrier density and mobility of the MIT crystal are 4.79×102 Ωcm, 2.83×1013 cm-3 and 4.60×10 2 cm2V-1s-1, respectively. The reduction of carrier mobility and the increase of the resistivity are related to the adding of In2Te3 into HgTe, which changes the energy band structure of the crystal.

AB - A new photoelectronic semiconductor crystal, mercury indium telluride (MIT), with dimensions of 15mm in diameter and 175mm in length has been successfully grown by using the vertical Bridgman method (VB) at the optimized growth conditions. The crystal was determined through the power X-ray diffraction to be defect zinc-blende structure with the space group F43 m . The transmittance spectra from 2.5 to 25μm shows high middle and far-infrared transmittance of 50∼55%, which decreases gradually with the increase of wavenumber due to the lattice absorption and free carriers absorption. Hall measurements at room temperature show that the resistivity, carrier density and mobility of the MIT crystal are 4.79×102 Ωcm, 2.83×1013 cm-3 and 4.60×10 2 cm2V-1s-1, respectively. The reduction of carrier mobility and the increase of the resistivity are related to the adding of In2Te3 into HgTe, which changes the energy band structure of the crystal.

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JO - Journal of Physics: Conference Series

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Preparation and properties of a novel near infrared photovoltaic detector single-crystal material

Abstract

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