Modulation of destructive quantum interference by bridge groups in truxene-based single-molecule junctions | Zendy

Lin Wang | Zendy; Zhihao Zhao | Zendy; Digambar Balaji Shinde | Zendy; Zhiping Lai | Zendy; Dong Wang | Zendy

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Modulation of destructive quantum interference by bridge groups in truxene-based single-molecule junctions

Author(s) -

Lin Wang,

Zhihao Zhao,

Digambar Balaji Shinde,

Zhiping Lai,

Dong Wang

Publication year - 2020

Publication title -

chemical communications

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.837

H-Index - 333

eISSN - 1364-548X

pISSN - 1359-7345

DOI - 10.1039/d0cc07438a

Subject(s) - molecule , conductance , interference (communication) , bridge (graph theory) , modulation (music) , chemistry , quantum interference , quantum , resonance (particle physics) , fermi energy , condensed matter physics , atomic physics , physics , telecommunications , quantum mechanics , organic chemistry , channel (broadcasting) , computer science , medicine , acoustics , electron

Electron transport properties of polycyclic truxene derivatives have been investigated by the single molecule conductance measurement technique and theoretical study. Molecules with nitrogen and carbonyl substituents at the bridge sites exhibit higher single-molecule conductances by almost one order of magnitude compared with non-substituted analogues. It can be ascribed that the anti-resonance feature produced by destructive quantum interference (DQI) is alleviated and pushed away from the Fermi energy. These findings provide an effective chemical strategy for manipulating the DQI behavior in single molecular devices.

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