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Literature DB >> 30059213

Highly Efficient Long-Range Electron Transport in a Viologen-Based Molecular Junction.

Quyen Van Nguyen^1,2, Pascal Martin¹, Denis Frath¹, Maria Luisa Della Rocca³, Frederic Lafolet¹, Sebastien Bellinck¹, Philippe Lafarge³, Jean-Christophe Lacroix^1,2.

Abstract

Thin layers of viologen-based oligomers with thicknesses between 3 and 14 nm were deposited on gold electrodes by electrochemical reduction of a diazonium salt, and then a Ti/Au top contact was applied to complete a solid-state molecular junction (MJ). MJs show symmetric J- V curves and highly efficient long-range transport, with an attenuation factor as small as 0.25 nm-1. This is attributed both to the fact that the viologen LUMO energy lies between the energies of the Fermi levels of the two contacts and to strong electronic coupling between molecules and contacts. As a consequence, resonant tunneling is likely to be the dominant transport mechanism within these MJs, but the temperature dependence of the transport properties suggests that activated redox hopping plays a role at high temperature.

Entities: Chemical Disease

Year: 2018 PMID： 30059213 DOI： 10.1021/jacs.8b05589

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

5 in total

1. A single atom change turns insulating saturated wires into molecular conductors.

Authors: Xiaoping Chen; Bernhard Kretz; Francis Adoah; Cameron Nickle; Xiao Chi; Xiaojiang Yu; Enrique Del Barco; Damien Thompson; David A Egger; Christian A Nijhuis
Journal: Nat Commun Date: 2021-06-08 Impact factor: 14.919

2. Role of Order in the Mechanism of Charge Transport across Single-Stranded and Double-Stranded DNA Monolayers in Tunnel Junctions.

Authors: Nipun Kumar Gupta; Edward A Wilkinson; Senthil Kumar Karuppannan; Lily Bailey; Ayelet Vilan; Ziyu Zhang; Dong-Chen Qi; Anton Tadich; Eimer M Tuite; Andrew R Pike; James H R Tucker; Christian A Nijhuis
Journal: J Am Chem Soc Date: 2021-11-26 Impact factor: 15.419

Highly Efficient Long-Range Electron Transport in a Viologen-Based Molecular Junction.

1. A single atom change turns insulating saturated wires into molecular conductors.

2. Role of Order in the Mechanism of Charge Transport across Single-Stranded and Double-Stranded DNA Monolayers in Tunnel Junctions.

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

4. Tunneling Probability Increases with Distance in Junctions Comprising Self-Assembled Monolayers of Oligothiophenes.

Review 5. Functional Redox-Active Molecular Tunnel Junctions.

Highly Efficient Long-Range Electron Transport in a Viologen-Based Molecular Junction.

1. A single atom change turns insulating saturated wires into molecular conductors.

2. Role of Order in the Mechanism of Charge Transport across Single-Stranded and Double-Stranded DNA Monolayers in Tunnel Junctions.

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

4. Tunneling Probability Increases with Distance in Junctions Comprising Self-Assembled Monolayers of Oligothiophenes.

Review 5. Functional Redox-Active Molecular Tunnel Junctions.

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