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Excellent thermoelectric properties induced by different contact geometries in phenalenyl-based single-molecule devices

机译：在基于苯酚的单分子器件中由于不同的接触几何形状而引起的优异的热电性能

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We investigated the thermoelectric properties of phenalenyl-based molecular devices by using the non-equilibrium Green’s function method combined with density function theory. The results show that the thermoelectric performance of molecular device can be significantly improved by different contact geometries. The ZT value of the device can reach 1.2 at room temperature, which is two orders of magnitude higher than that of graphene. Moreover, the change of the coupling between molecule and electrodes can also enhance the ZT value. The ZT value can be further optimized to 1.4 at 300 K and 5.9 at 100 K owing to the decrease of electronic thermal conductance and almost unchanged power factor.

机译：我们通过结合非平衡格林函数方法和密度泛函理论研究了基于菲基的分子器件的热电性能。结果表明，不同接触几何形状可以显着提高分子器件的热电性能。器件的ZT值在室温下可以达到1.2，比石墨烯的ZT值高两个数量级。而且，分子和电极之间的偶联的改变也可以提高ZT值。由于电子热导率的降低和几乎不变的功率因数，ZT值可以进一步优化为300 K时的1.4和100 K时的5.9。

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期刊名称 Scientific Reports
作者
Xuan-Hao Cao; Wu-Xing Zhou; Chang-Yong Chen; Li-Ming Tang; Mengqiu Long; Ke-Qiu Chen;
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年(卷),期 -1(7),-1
年度 -1
页码 10842
总页数 8
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2. Single-molecule field-effect transistors: A computational study of the effects of contact geometry and gating-field orientation on conductance-switching properties [J] . Trilisa M. Perrine, Barry D. Dunietz Physical review. B, Condensed Matter And Materials Physics . 2007,第19期

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Excellent thermoelectric properties induced by different contact geometries in phenalenyl-based single-molecule devices

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