用各向同性应变改善2,7-二辛基[1]苯并噻吩[3,2-b][1]苯并噻吩基有机半导体的热电性能

Ziman Wang, Ming Yang, Q. Jiang, K. Zheng, Yongmei Ma, Hang Zhang
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引用次数: 7

摘要

用第一性原理计算研究了各向同性应变对2,7-二辛基[1]苯并噻吩[3,2-b][1]苯并噻吩(c8 - btbt)在室温下羟基(- OH)、氨基(- nh2)和甲基(- ch3)基修饰的带结构和热电性能的影响。我们发现各向同性应变改变了c8 - bbt基有机半导体的费米能级和带隙。n型半导体的无量纲品质图(zT)值的变化大于p型半导体。利用BoltzTraP程序计算了热电性能。结果表明,存在一个最佳载流子浓度(N),使c8 - bbt基有机半导体的zT值达到最大值。oh修饰的c8 -BTBT的n型半导体zT最大值为0.41。对于p型半导体,ch3修饰的c8 -BTBT的zT最大值为0.36。我们还发现,nh2修饰的c8 -BTBT具有较差的热电性能,这意味着- nh2基团可能不是c8 -BTBT热电应用的最佳选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving the Thermoelectric Properties of 2,7-Dioctyl[1]Benzothieno[3,2-b][1]Benzothiophene-based Organic Semiconductors by Isotropic Strain
The effect of isotropic strain on the band structures and thermoelectric properties of 2,7-dioctyl[1]benzothieno[3,2-b][1]benzothiophene (C 8 -BTBT) modified with hydroxyl ( – OH), amino ( – NH 2 ), and methyl ( – CH 3 ) groups at room temperature have been investigated by first-principles calculations. We found that isotropic strain modified the Fermi levels and bandgaps of the C 8 -BTBT-based organic semiconductors. The variations of the dimensionless figure of merit ( zT ) values of the N-type semiconductors are greater than those of the P-type semiconductors. The thermoelectric properties were calculated using the BoltzTraP code. The results show that there is an optimal carrier concentration ( N ) to give the maximum zT value of the C 8 -BTBT-based organic semiconductor. The maximum zT value of the N-type semiconductor is 0.41 for OH-modified C 8 -BTBT. For the P-type semiconductor, the maximum zT value is 0.36 for CH 3 -modified C 8 -BTBT. We also found that NH 2 -modified C 8 - BTBT has poor thermoelectric properties, which means that the – NH 2 group may not be the optimal choice for C 8 -BTBT in thermoelectric applications.
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