Phonon thermal conduction in periodically porous silicon nanobeams

机译：周期性多孔硅纳米束中的声子热传导

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The thermal conductivity of single crystal silicon can be reduced by the introduction of boundaries at the nanoscale. We present the measured thermal conductivity of single crystal silicon nanobeams patterned with a single row of holes at room temperature: the hole diameter and the spacing vary from 100nm to 250nm and from 200 nm to 800nm, respectively. A steady-state four-probe joule heating measurement technique is used to extract the thermal conductivity of the porous silicon nanobeams across a range of pore geometries. The reduction in thermal conductivity owing to the hole boundaries is up to a factor of two.

机译：单晶硅的热导率可以通过在纳米级引入边界来降低。我们介绍了在室温下用单排孔构图的单晶硅纳米束的热导率：孔直径和间距分别在100nm至250nm和200nm至800nm之间变化。稳态四探针焦耳热测量技术用于提取整个孔径几何范围内的多孔硅纳米束的热导率。由于孔边界而导致的热导率降低高达两倍。

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来源
《Proceedings of the Fourteenth InterSociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems》|2014年|637-640|共4页
会议地点 Orlando FL(US)
作者
Woosung Park; Marconnet Amy M.; Kodama Takashi; Joonsuk Park; Sinclair Robert; Asheghi Mehdi; Goodson Kenneth E.;
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作者单位

Department of Mechanical Engineering, Stanford University, California, United States, 94305;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Conductivity; Metals; Phonons; Resistance; Silicon; Temperature measurement; Thermal conductivity; Holey Silicon; Phononic Crystal; Porous Silicon; Silicon Porous Nanobeam; Thermal Conductivity;

机译：电导率金属;声子抵抗性;硅;温度测量；导热系数;多孔硅；声子晶体多孔硅硅多孔纳米束；导热系数;;

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专利

1. Phonon conduction in periodically porous silicon nanobridges [J] . Marconnet A.M., Kodama T., Asheghi M., Nanoscale and microscale thermophysical engineering . 2012,第4期

机译：周期性多孔硅纳米桥中的声子传导
2. Phonon Conduction in Periodically Porous Silicon Nanobridges [J] . Amy M. Marconneta* Takashi Kodamaa Mehdi Asheghia amp, Kenneth E. Goodsona Nanoscale and Microscale Thermophysical Engineering . 2012,第4期

机译：周期性多孔硅纳米桥中的声子传导
3. Phonon conduction in silicon nanobeams [J] . Woosung Park, Dongsuk D. Shin, Soo Jin Kim, Applied Physics Letters . 2017,第21期

机译：硅纳米束中的声子传导
4. Phonon thermal conduction in periodically porous silicon nanobeams [C] . Woosung Park, Marconnet Amy M., Kodama Takashi, InterSociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems . 2014

机译：位于定期多孔硅纳米束中的声子热传导
5. Thermal oxidation-induced strain in silicon nanobeams. [D] . Pyzyna, Adam Michael. 2005

机译：硅纳米束中的热氧化诱导应变。
6. Phonon Conduction in Silicon Nanobeam Labyrinths [O] . Woosung Park, Giuseppe Romano, Ethan C. Ahn, -1

机译：硅纳米束迷宫中的声子传导
7. PHONON CONDUCTION IN PERIODICALLY POROUS SILICON NANOBRIDGES [O] . Amy M. Marconnet A, Takashi Kodama A, Mehdi Asheghi A, 2014

机译：周期性多孔硅纳米粒子中的声子传导

Phonon thermal conduction in periodically porous silicon nanobeams

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