Turning the Tap: Conformational Control of Quantum Interference to Modulate Single Molecule Conductance

Jiang, Feng; Trupp, Douglas; Algethami, Norah; Zheng, Haining; He, Wenxiang; Alqorashi, Afaf; Zhu, Chenxu; Tang, Chun; Li, Ruihao; Liu, Junyang; Sadeghi, Hatef; Shi, Jia; Davidson, Ross; Korb, Marcus; Naher, Masnun; Sobolev, Alexandre N.; Sangtarash, Sara; Low, Paul J.; Hong, Wenjing; Lambert, Colin

doi:10.1002/anie.201909461

Turning the Tap: Conformational Control of Quantum Interference to Modulate Single Molecule Conductance

Jiang, Feng; Trupp, Douglas; Algethami, Norah; Zheng, Haining; He, Wenxiang; Alqorashi, Afaf; Zhu, Chenxu; Tang, Chun; Li, Ruihao; Liu, Junyang; Sadeghi, Hatef; Shi, Jia; Davidson, Ross; Korb, Marcus; Naher, Masnun; Sobolev, Alexandre N.; Sangtarash, Sara; Low, Paul J.; Hong, Wenjing; Lambert, Colin

Authors

Feng Jiang

Douglas Trupp

Norah Algethami

Haining Zheng

Wenxiang He

Afaf Alqorashi

Chenxu Zhu

Chun Tang

Ruihao Li

Junyang Liu

Hatef Sadeghi

Jia Shi

Dr Ross Davidson ross.davidson@durham.ac.uk
Academic Visitor

Marcus Korb

Masnun Naher

Alexandre N. Sobolev

Sara Sangtarash

Paul J. Low

Wenjing Hong

Colin Lambert

Abstract

Together with the more intuitive and commonly recognized conductance mechanisms of charge‐hopping and tunneling, quantum interference (QI) phenomena have been identified as important factors affecting charge transport through molecules. Consequently, establishing simple, flexible molecular design strategies to understand, control and exploit QI in molecular junctions poses an exciting challenge. Here we demonstrate that destructive quantum interference (DQI) in meta‐substituted phenylene ethylene‐type oligomers (m‐OPE) can be tuned by changing the position and conformation of pendant methoxy (OMe) substituents around the central phenylene ring. These substituents play the role of molecular‐scale ‘taps’, which can be switched on or off to control the current flow through a molecule. Our experimental results conclusively verify recently postulated magic ratio and orbital product rules, and highlight a novel chemical design strategy for tuning and gating DQI features, to create single‐molecule devices with desirable electronic functions.

Citation

Jiang, F., Trupp, D., Algethami, N., Zheng, H., He, W., Alqorashi, A., Zhu, C., Tang, C., Li, R., Liu, J., Sadeghi, H., Shi, J., Davidson, R., Korb, M., Naher, M., Sobolev, A. N., Sangtarash, S., Low, P. J., Hong, W., & Lambert, C. (2019). Turning the Tap: Conformational Control of Quantum Interference to Modulate Single Molecule Conductance. Angewandte Chemie, 58(52), 18987-18993. https://doi.org/10.1002/anie.201909461

Journal Article Type	Article
Acceptance Date	Oct 14, 2019
Online Publication Date	Oct 31, 2019
Publication Date	Dec 19, 2019
Deposit Date	Oct 17, 2019
Publicly Available Date	Oct 31, 2020
Journal	Angewandte Chemie
Print ISSN	0044-8249
Electronic ISSN	1521-3757
Publisher	Wiley
Peer Reviewed	Peer Reviewed
Volume	58
Issue	52
Pages	18987-18993
DOI	https://doi.org/10.1002/anie.201909461
Public URL	https://durham-repository.worktribe.com/output/1287689

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Copyright Statement
This is the accepted version of the following article: Jiang, Feng, Trupp, Douglas, Algethami, Norah, Zheng, Haining, He, Wenxiang, Alqorashi, Afaf, Zhu, Chenxu, Tang, Chun, Li, Ruihao, Liu, Junyang, Sadeghi, Hatef, Shi, Jia, Davidson, Ross, Korb, Marcus, Naher, Masnun, Sobolev, Alexandre N., Sangtarash, Sara, Low, Paul J., Hong, Wenjing & Lambert, Colin (2019). Turning the Tap: Conformational Control of Quantum Interference to Modulate Single Molecule Conductance. Angewandte Chemie 58(52): 18987-18993 which has been published in final form at https://doi.org/10.1002/anie.201909461. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for self-archiving.