Low Temperature Thermal Conductivity of Heavily Boron-Doped Synthetic Diamond: Influence of Boron-Related Structure Defects

Prikhodko D.; Tarelkin S.; Bormashov V.; Golovanov A.; Kuznetsov M.; Teteruk D.; Kornilov N.; Volkov A.; Buga A.

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Low Temperature Thermal Conductivity of Heavily Boron-Doped Synthetic Diamond: Influence of Boron-Related Structure Defects

机译：硼掺杂合成金刚石的低温导热系数：硼相关结构缺陷的影响

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Thermal conductivity of single-crystal boron-doped diamonds (BDD) with approximate to 2 x 10(19) cm(-3) (approximate to 120 ppm) and 5 x 10(19) cm(-3) (approximate to 300 ppm) boron content was studied by a steady-state method in a temperature range of 20-400 K. The obtained data were analyzed within Callaway model framework. The values of dislocation density obtained from best fit of experimental data and from density of etch pits measuring were compared. Their discrepancy suggests presence of some other boron-related defects in crystal lattice.

机译：单晶硼掺杂金刚石（BDD）的热导率，近似为2×10（19）厘米（-3）（近似为120ppm）和5×10（19）cm（-3）（近似为300ppm ）通过在20-400k的温度范围内通过稳态方法研究硼含量。在Callaway模型框架内分析所获得的数据。比较了从最佳实验数据和蚀刻凹坑测量的最佳拟合获得的位错密度的值。他们的差异表明存在晶格中其他硼相关的缺陷。

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《Journal of superhard materials: Sverkhtverdye materialy》 |2019年第1期|共8页
作者
Prikhodko D.; Tarelkin S.; Bormashov V.; Golovanov A.; Kuznetsov M.; Teteruk D.; Kornilov N.; Volkov A.; Buga A.;
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作者单位

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

Technol Inst Superhard &

Novel Carbon Mat Ul Tsentralnaya 7a Moscow 108840 Russia;

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正文语种 eng
中图分类工程材料一般性问题;
关键词
boron-doped diamond; thermal conductivity; HPHT; dislocation density;

机译：掺杂金刚石;导热率;HPHT;位错密度;

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专利

1. Low Temperature Thermal Conductivity of Heavily Boron-Doped Synthetic Diamond: Influence of Boron-Related Structure Defects [J] . Prikhodko D., Tarelkin S., Bormashov V., Journal of superhard materials: Sverkhtverdye materialy . 2019,第1期

机译：硼掺杂合成金刚石的低温导热系数：硼相关结构缺陷的影响
2. Low temperature thermal conductivity of heavily boron-doped synthetic diamond: Influence of boron-related structure defects [J] . D. Prikhodko, S. Tarelkin, V. Bormashov Сверхтвердые　материалы. . 2019,第1a237期

机译：重硼掺杂的人造金刚石的低温热导率：硼相关结构中的缺陷的影响
3. Low-temperature electrical conductivity of heavily boron-doped diamond single crystals [J] . Blank VD, Buga SG, Terentiev SA, Physica status solidi, B. Basic research . 2007,第1期

机译：重硼掺杂金刚石单晶的低温电导率
4. RADIAL DISTRIBUTION OF THERMALLY-INDUCED DEFECTS IN HEAVILY BORON-DOPED SILICON WAFERS [C] . E. Asayama, T. Ono, M. Takeshita, Silicon materials science and technology . 1998

机译：掺硼硅片中热诱导缺陷的径向分布
5. Measurement of thermal conductivity of boron-doped CVD diamond films as a function of electrical resistivity. [D] . Sayers, Andrew. 1996

机译：掺杂硼的CVD金刚石薄膜的热导率随电阻率的变化的测量。
6. High-Temperature Oxidation of Heavy Boron-Doped Diamond Electrodes: Microstructural and Electrochemical Performance Modification [O] . Jacek Ryl, Mateusz Cieslik, Artur Zielinski, 2020

机译：重硼掺杂金刚石电极的高温氧化：微观结构和电化学性能的修改。
7. Detection of Heavy Metals Based on Boron-doped Diamond Nanograss Array, Boron-doped Diamond Film and Glassy Carbon Electrodes [O] . Min Wei, Gao Ying Zeng, Yong Liu, 2013

机译：基于硼掺杂金刚石纳米草阵列，硼掺杂金刚石膜和玻璃碳电极检测重金属的检测
8. High-Temperature Point-Contact Transistors and Schottky Diodes Formed on Synthetic Boron-Doped Diamond [R] . Geis, M. W., Rathman, D. D., Ehrlich, D. J., 1987

机译：合成硼掺杂金刚石上形成的高温点接触晶体管和肖特基二极管

Low Temperature Thermal Conductivity of Heavily Boron-Doped Synthetic Diamond: Influence of Boron-Related Structure Defects

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