Electron transport in self-assembled polymer molecular junctions

Wenping Hu; Jun Jiang; Hiroshi Nakashima; Yi Luo; Yoshiaki Kashimura; Ke Qiu Chen; Z. Shuai; Kazuaki Furukawa; Wei Lu; Yunqi Liu; Daoben Zhu; Keiichi Torimitsu

doi:10.1103/PhysRevLett.96.027801

Electron transport in self-assembled polymer molecular junctions

Wenping Hu, Jun Jiang, Hiroshi Nakashima, Yi Luo, Yoshiaki Kashimura, Ke Qiu Chen, Z. Shuai, Kazuaki Furukawa, Wei Lu, Yunqi Liu, Daoben Zhu, Keiichi Torimitsu

Research output: Contribution to journal › Article › peer-review

78 Citations (Scopus)

Abstract

A molecular junction of a poly(p-phenyleneethynylene)s derivative with thioacetate end groups (TA-PPE) was fabricated by self-assembling. Nanogap electrodes made by electroplating technique was used to couple thiol end groups of TA-PPE molecules. Room temperature current-voltage characteristics of the molecular junction exhibited highly periodic, repeatable, and identical stepwise features. First-principles calculations suggest that one possibility for the equidistant step is due to the opening of different conducting channels that corresponds to the unoccupied molecular orbitals of the polymer in the junction. It is interesting to see that an 18 nm long polymer is of quantized electronic structures and behaves like a quantum transport device.

Original language	English
Article number	027801
Journal	Physical review letters
Volume	96
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevLett.96.027801
Publication status	Published - 2006 Jan 20
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1103/PhysRevLett.96.027801

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abstract = "A molecular junction of a poly(p-phenyleneethynylene)s derivative with thioacetate end groups (TA-PPE) was fabricated by self-assembling. Nanogap electrodes made by electroplating technique was used to couple thiol end groups of TA-PPE molecules. Room temperature current-voltage characteristics of the molecular junction exhibited highly periodic, repeatable, and identical stepwise features. First-principles calculations suggest that one possibility for the equidistant step is due to the opening of different conducting channels that corresponds to the unoccupied molecular orbitals of the polymer in the junction. It is interesting to see that an 18 nm long polymer is of quantized electronic structures and behaves like a quantum transport device.",

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AU - Hu, Wenping

AU - Jiang, Jun

AU - Nakashima, Hiroshi

AU - Luo, Yi

AU - Kashimura, Yoshiaki

AU - Chen, Ke Qiu

AU - Shuai, Z.

AU - Furukawa, Kazuaki

AU - Lu, Wei

AU - Liu, Yunqi

AU - Zhu, Daoben

AU - Torimitsu, Keiichi

PY - 2006/1/20

Y1 - 2006/1/20

N2 - A molecular junction of a poly(p-phenyleneethynylene)s derivative with thioacetate end groups (TA-PPE) was fabricated by self-assembling. Nanogap electrodes made by electroplating technique was used to couple thiol end groups of TA-PPE molecules. Room temperature current-voltage characteristics of the molecular junction exhibited highly periodic, repeatable, and identical stepwise features. First-principles calculations suggest that one possibility for the equidistant step is due to the opening of different conducting channels that corresponds to the unoccupied molecular orbitals of the polymer in the junction. It is interesting to see that an 18 nm long polymer is of quantized electronic structures and behaves like a quantum transport device.

AB - A molecular junction of a poly(p-phenyleneethynylene)s derivative with thioacetate end groups (TA-PPE) was fabricated by self-assembling. Nanogap electrodes made by electroplating technique was used to couple thiol end groups of TA-PPE molecules. Room temperature current-voltage characteristics of the molecular junction exhibited highly periodic, repeatable, and identical stepwise features. First-principles calculations suggest that one possibility for the equidistant step is due to the opening of different conducting channels that corresponds to the unoccupied molecular orbitals of the polymer in the junction. It is interesting to see that an 18 nm long polymer is of quantized electronic structures and behaves like a quantum transport device.

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Electron transport in self-assembled polymer molecular junctions

Abstract

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