Molecular rectifiers: a new design based on asymmetric anchoring moieties.

Molecular electronics; NEGF-DFT; diode; pinning; rectifier; single molecule; Asymmetric anchoring; Molecular rectifier; Non-resonant tunneling; Orders of magnitude; Bioengineering; Chemistry (all); Materials Science (all); Condensed Matter Physics; Mechanical Engineering; General Materials Science; General Chemistry

Abstract :

[en] The quest for a molecular rectifier is among the major challenges of molecular electronics. We introduce three simple rules to design an efficient rectifying molecule and demonstrate its functioning at the theoretical level, relying on the NEGF-DFT technique. The design rules notably require both the introduction of asymmetric anchoring moieties and a decoupling bridge. They lead to a new rectification mechanism based on the compression and control of the HOMO/LUMO gap by the electrode Fermi levels, arising from a pinning effect. Significant rectification ratios up to 2 orders of magnitude are theoretically predicted as the mechanism opposes resonant to nonresonant tunneling.

Disciplines :

Chemistry
Physics

Author, co-author :

Van Dyck, Colin ; Université de Mons - UMONS > Faculté des Sciences > Service Chimie Physique Théorique

Ratner, Mark A; Department of Chemistry, Northwestern University, Evanston, United States

Language :

English

Title :

Molecular rectifiers: a new design based on asymmetric anchoring moieties.

Publication date :

11 March 2015

Journal title :

Nano Letters

ISSN :

1530-6984

eISSN :

1530-6992

Publisher :

American Chemical Society, United States

Volume :

Issue :

Pages :

1577-84

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://pubs.acs.org/doi/pdf/10.1021/nl504091v

Research institute :

Matériaux

Funders :

National Science Foundation
Belgian American Educational Foundation

Available on ORBi UMONS :

since 04 July 2022

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Scopus citations^®

147

Scopus citations^®
without self-citations

141

OpenCitations

120

OpenAlex citations

153

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