Mechanically Tuned Thermopower of Single-Molecule Junctions

Shintaro Fujii; Enrique Montes; Haruna Cho; Yi Yue; Masaaki Koike; Tomoaki Nishino; Hﾃｩctor Vﾃ｡zquez; Manabu Kiguchi

doi:https://doi.org/10.1002/aelm.202200700

論文・著書情報

タイトル

和文:	Mechanically Tuned Thermopower of Single-Molecule Junctions
英文:	Mechanically Tuned Thermopower of Single-Molecule Junctions

著者

和文:	Shintaro Fujii, Enrique Montes, Haruna Cho, Yi Yue, Masaaki Koike, Tomoaki Nishino, Hﾃｩctor Vﾃ｡zquez, Manabu Kiguchi.
英文:	Shintaro Fujii, Enrique Montes, Haruna Cho, Yi Yue, Masaaki Koike, Tomoaki Nishino, Hﾃｩctor Vﾃ｡zquez, Manabu Kiguchi.

言語

English

掲載誌/書名

和文:	Advanced Electronic Materials
英文:	Advanced Electronic Materials

巻, 号, ページ

Vol. 8 No. 12 pp. 2200700

出版年月

2022年10月

出版者

和文:	John Wiley & Sons, Ltd
英文:	John Wiley & Sons, Ltd

会議名称

和文:
英文:

開催地

和文:
英文:

公式リンク

https://doi.org/10.1002/aelm.202200700

DOI

https://doi.org/10.1002/aelm.202200700

アブストラクト

Abstract In this paper, the tuning of the thermopower with single-molecule junctions of fullerene (C60), 4,4?-bipyridine (BPY), and p-phenylenediamine (PPD) using scanning tunneling microscopy (STM)-based break junction technique is demonstrated. Single-molecule junctions are prepared in a nanogap between a Au-STM tip and a Au(111) electrode. Upon applying a temperature difference across the junction, a thermoelectric voltage is generated across it. By mechanically controlling the tip?electrode separation distance, the thermoelectric voltage of the junction is tuned. The absolute value of the thermopower decreases with decreasing tip?electrode separation distance for BPY and PPD, while it increases for C60. Atomistic simulations of the junction illustrate how this arises from shifts in the conduction orbital energies induced by the mechanical compression of the junctions.

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