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Literature DB >> 17501074

Unusual conductance of polyyne-based molecular wires.

Abstract

We report a full self-consistent ab initio calculation of the current-voltage curve and the conductance of thiolate capped polyynes in contact with gold electrodes. We find the conductance of polyynes an order of magnitude larger compared with other conjugated oligomers. The reason lies in the position of the Fermi level deep in the highest occupied molecular orbital related resonance. With the conductance weakly dependent on the applied bias and almost independent of the length of the molecular chain, polyynes appear as nearly perfect molecular wires.

Entities: Chemical

Year: 2007 PMID： 17501074 DOI： 10.1103/PhysRevLett.98.116801

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

2 in total

1. Electron Transport of the Nanojunctions of (BN) _n (n = 1-4) Linear Chains: A First-Principles Study.

Authors: Ying-Qin Zhao; Jun-Qing Lan; Cui-E Hu; Yi Mu; Xiang-Rong Chen
Journal: ACS Omega Date: 2021-06-08

2. Quantum conductance of silicon-doped carbon wire nanojunctions.

Authors: Dominik Szcześniak; Antoine Khater; Zygmunt Bak; Radosław Szcześniak; Michel Abou Ghantous
Journal: Nanoscale Res Lett Date: 2012-11-07 Impact factor: 4.703

2 in total

Unusual conductance of polyyne-based molecular wires.

1. Electron Transport of the Nanojunctions of (BN) n (n = 1-4) Linear Chains: A First-Principles Study.

2. Quantum conductance of silicon-doped carbon wire nanojunctions.

1. Electron Transport of the Nanojunctions of (BN) _n (n = 1-4) Linear Chains: A First-Principles Study.