ELECTRICAL PROPERTIES OF InN GROWN BY MOLECULAR BEAM EPITAXY

机译：分子束外延所生长的INN电气特性

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The basic properties of indium nitride (InN) are becoming ounderstood due to advancement in growth techniques using molecular beam epitaxy. GaN and A1N buffers permit thick InN layer growth with reproducible structural, electrical and optical properties. Improved electrical properties include reduction in electron density in undoped InN and increased mobility as a function of InN layer thickness. Surface and interface electron accumulation add significant conductivity that is extracted for determination of the electron density profile. Electrochemical CV profiles confirm surface electron accumulation. Surface chemical exposures further raise electron accumulation. Early applications of low bulk, high surface, electron density InN include near-surface THz emission and electrochemical sensing. These effects result from surface electron accumulation of 2-3 * 10~(13)cm~(-2) sheet density.

机译：由于使用分子束外延的生长技术的进步，氮化铟（Inn）的基本性质正在成为牛排。 GaN和A1N缓冲液允许厚厚的INN层生长，具有可重复的结构，电气和光学性质。改进的电气性质包括在未掺杂的套管中的电子密度降低，并且随着驾驶层厚度的函数增加的迁移率。表面和接口电子累积增加了提取的显着的导电性，以确定电子密度分布。电化学CV型材确认表面电子积聚。表面化学曝光进一步提高电子积累。低散装，高表面，电子密度套的早期应用包括近表面THz发射和电化学传感。这些效果由2-3×10〜（13）cm〜（-2）厘米浓度的表面电子堆积产生。

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《Proceedings of the International Symposium on State-of-the-Art-Program on Compound Semiconductors》|2004年||共14页
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William J. Schaff; Hai Lu; Lester F. Eastman; Wladek Walukiewicz; Kin Man Yu; Stacia Keller; Sarah Kurtz; Brian Keyes; Lynn Gevilas;
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1. Thickness Dependence of Structural and Electrical Properties of Thin InN Grown by Radio-Frequency Plasma-Assisted Molecular Beam Epitaxy [J] . Junichi Sakaguchi, Tsutomu Araki, Tatsuya Fujishima, Japanese journal of applied physics . 2013,第8issue2期

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2. Estimation of band-gap energy of intrinsic InN from photoluminescence properties of undoped and Si-doped InN films grown by plasma-assisted molecular-beam epitaxy [J] . Higashiwaki M, Matsui T Journal of Crystal Growth . 2004,第1期

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3. Optical and electrical characteristics of Mn-doped InN grown by plasma-assisted molecular beam epitaxy [J] . Jessica H. Chai, Young-Wook Song, Roger J. Reeves, Physica status solidi . 2012,第1期

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4. ELECTRICAL PROPERTIES OF InN GROWN BY MOLECULAR BEAM EPITAXY [C] . William J. Schaff, Hai Lu, Lester F. Eastman, Proceedings vol.2004-06; Nitride and Wide Bandgap Semiconductors for Sensors, Photonics, and Electronics and State-of-the-Art Program on Compound Semiconductors International Symposia and Meeting of the Electrochemical Society; 20041003-08; Honolulu,HI(U . 2004

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ELECTRICAL PROPERTIES OF InN GROWN BY MOLECULAR BEAM EPITAXY

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