Thermoelectric improvement of the figure of merit of zinc phosphate glass composites by a likely tunnel percolation mechanism

Nassima Radouane; Michael Depriester; Abdelhak Hadj Sahraoui; Bennaceur Ouaki; Benoit Escorne; Benoit Duponchel; Dharmendra Pratap Singh; Abdelkrim Maaroufi

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Thermoelectric improvement of the figure of merit of zinc phosphate glass composites by a likely tunnel percolation mechanism

机译：一种可能的隧道渗透机制磷酸锌玻璃复合材料的优异图的热电改善

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Zinc phosphate glasses (ZPG) have emerged as new energy materials due to their femtosecond response and chemical durability. The present investigation renders the methodology to enhance the thermoelectric properties of ZPG by adding external guest graphitic particles. Herein, transport parameters, Seebeck coefficient, and thermal and electrical conductivities of zinc phosphate glass composites were measured as a function of graphite concentration, followed by the calculation of the thermoelectric figure of merit (ZT). It is observed that the thermoelectric properties of the ZPG/graphite composites are superior to that of the pristine ZPG matrix and significantly depend on the volume concentration of graphite filler. ZPG/graphite composite exhibiting with 5 vol. % graphite content imparts the best thermoelectric performance with a power factor of PF ≈ 0.98μWm~(-1) KT~(-2) and ZT≈ 2.6 × 10~(-4).

机译：由于其飞秒和化学耐用性，磷酸锌玻璃（ZPG）已成为新能源材料。本研究使方法提供了通过添加外部客座石墨颗粒来增强ZPG的热电性能。在本文中，作为石墨浓度的函数测量磷酸玻璃复合材料的传输参数，塞贝克系数和热和电导率，其次是计算优选（ZT）的热电图。观察到ZPG /石墨复合材料的热电性质优于原始ZPG基质的热电性能，并显着取决于石墨填料的体积浓度。 ZPG /石墨综合表现出5 Vol。％石墨含量赋予最佳的热电性能，功率因数PF≈0.98μwm〜（-1）kt〜（-2）和zt≈2.6×10〜（-4）。

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《Journal of Applied Physics》 |2021年第15期|155110.1-155110.10|共10页
作者
Nassima Radouane; Michael Depriester; Abdelhak Hadj Sahraoui; Bennaceur Ouaki; Benoit Escorne; Benoit Duponchel; Dharmendra Pratap Singh; Abdelkrim Maaroufi;
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作者单位

UDSMM (EA 4476) MREI-1 Universite du Littoral Cote d'Opale Dunkerque 59140 France Laboratory of Composite Materials Polymers and Environment Department of Chemistry Faculty of Sciences University of Mohammed V Avenue Ibn Batouta P.B. 1014 Agdal Rabat Morocco;

UDSMM (EA 4476) MREI-1 Universite du Littoral Cote d'Opale Dunkerque 59140 France;

UDSMM (EA 4476) MREI-1 Universite du Littoral Cote d'Opale Dunkerque 59140 France;

Ecole Nationale Superieure des Mines de Rabat Rabat 53000 Morocco;

Pole de Recherche 'Environnement Milieux Littoraux et Marins' (EMLM) ULCO 145 avenue Maurice Schumann Dunkerque 59140 France;

UDSMM (EA 4476) MREI-1 Universite du Littoral Cote d'Opale Dunkerque 59140 France;

Unite de Dynamique et Structure des Materiaux Moleculaires (UDSMM) Universite Du Littoral Cote d'Opale Calais 62228 France;

Laboratory of Composite Materials Polymers and Environment Department of Chemistry Faculty of Sciences University of Mohammed V Avenue Ibn Batouta P.B. 1014 Agdal Rabat Morocco;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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Thermoelectric improvement of the figure of merit of zinc phosphate glass composites by a likely tunnel percolation mechanism

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