固态法煅烧频率对掺钛 CuCrO2 热电性能的影响

IF 0.7 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of metals, materials and minerals Pub Date : 2023-12-02 DOI:10.55713/jmmm.v33i4.1785

D. Bonardo, N. Darsono, S. Humaidi, A. Imaduddin, Noni Surtiana Silalahi

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引用次数: 0

摘要

在本研究中，系统地探讨了氧化钛(TiO2)掺杂剂和不同焙烧工艺对CuCrO2热电性能的影响。强调这些因素不仅影响位错密度，而且通过塞贝克系数和电阻率的调制对热电性能产生深远的影响。研究结果表明，加入TiO2并经过两次煅烧过程的CrT-2在功率因数值方面表现最佳，强调了TiO2作为掺杂剂对提高热电效率的重要性。相反，与Cr-2相比，经过四次煅烧循环的Cr-4表现出略低的功率因数值。值得注意的是，尽管含有钛掺杂剂，但CrT-4显示出最低的功率因数值，这可能是由于掺杂剂与延长的煅烧过程之间复杂的相互作用。这些结果强调了CuCrO2中掺杂剂、煅烧过程和热电性能之间复杂的相互作用，需要精确优化以实现所需的材料效率。

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Effect of calcination frequency on the thermoelectric properties of Ti doped CuCrO2 by solid state method

In this study, the influence of titanium oxide (TiO2) dopants and varying calcination processes on the thermoelectric properties of CuCrO2 was systematically explored. It was emphasized that these factors were not only affecting dislocation density but also exerting a profound influence on thermoelectric performance through the modulation of Seebeck coefficient and resistivity. The findings highlighted CrT-2, which incorporated TiO2 and underwent a two-time calcination process, as the top-performing sample in terms of power factor values, underscoring the significance of TiO2 as a dopant for enhancing thermoelectric efficiency. Conversely, Cr-4, exposed to four calcination cycles, exhibited slightly lower power factor values compared to Cr-2. Notably, CrT-4, despite containing the titanium dopant, showed the lowest power factor values, potentially due to intricate interactions between the dopant and the extended calcination process. These results underscore the intricate interplay between dopants, calcination processes, and thermoelectric performance in CuCrO2, necessitating precise optimization to achieve the desired material efficiency.

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来源期刊

Journal of metals, materials and minerals MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

1.40

自引率

11.10%

发文量

期刊介绍： Journal of Metals, Materials and Minerals (JMMM) is a double-blind peer-reviewed international journal published 4 issues per year (starting from 2019), in March, June, September, and December, aims at disseminating advanced knowledge in the fields to academia, professionals and industrialists. JMMM publishes original research articles as well as review articles related to research and development in science, technology and engineering of metals, materials and minerals, including composite & hybrid materials, concrete and cement-based systems, ceramics, glass, refractory, semiconductors, polymeric & polymer-based materials, conventional & technical textiles, nanomaterials, thin films, biomaterials, and functional materials.