EVERAL NOTES ON THE LATTICE THERMALCONDUCTIVITY OF FRACTAL-SHAPED NANOPARTICLES

Q3 Engineering Eurasian Physical Technical Journal Pub Date : 2022-09-22 DOI:10.31489/2022no3/10-17

A. V. Shishulin

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Abstract

Using the additive technologies in the production of nanoparticle-fabricated three-dimensional materials has become one of the most promising ways of obtaining effective and low-cost thermoelectric energy converters. Nanostructuring provides a route to modifying selectively the transport properties which determine the materials thermoelectric efficiency. In this paper, we have shown one more effect which consists in a significant dependence of the contribution of lattice vibrations to the thermal conductivity coefficient of a nanoparticle (its reducing is required in practice) on its morphology for nanoparticles of a pure substance. The particle morphology has been specified by the values of its effective diameter, fractal dimension and surface roughness.Using nanoparticles of pure bismuth at low temperatures as an example, we have demonstrated a notable decrease in the lattice thermal conductivity in “complicating” the particle morphology. In the final section, we have presented methods of calculating characteristics of nanoparticle ensembles, the methodology of measuring the fractal dimension experimentally also being discussed.

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关于分形纳米颗粒晶格热导率的几点注意

利用增材技术制备纳米颗粒三维材料已成为获得高效、低成本热电能量转换器最有前途的途径之一。纳米结构为选择性地改变决定材料热电效率的输运性质提供了一条途径。在本文中，我们展示了另一个效应，即晶格振动对纳米颗粒导热系数的贡献(在实践中需要降低)对纯物质纳米颗粒形貌的重要依赖。颗粒的形态由其有效直径、分形维数和表面粗糙度确定。以低温下的纯铋纳米粒子为例，我们已经证明了在“复杂”粒子形态的情况下，晶格热导率显著降低。在最后一节中，我们提出了计算纳米粒子系综特性的方法，并讨论了实验测量分形维数的方法。

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来源期刊

Eurasian Physical Technical Journal Energy-Energy (all)

CiteScore

1.10

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0.00%

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