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Controlling Quantum Interference by Regulating Charge on the Bridging N Atom of Pyrrolodipyridine Molecular Junctions

05 February 2019, Version 1
Working Paper
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Control of quantum interference features: molecular junctions incorporating pyrrolodipyridine-based molecular wires were fabricated by scanning probe methods. Quantum interference effects were introduced by employing meta-connected molecules, and modulated in magnitude by changing the substituent on the pyrrolic N. Dramatic changes in molecular conductance and DFT transport calculations demonstrate the storng effect that small changes in electronic density can have on the overall conductance of a molecular wire.

Keywords

Molecular Electronics
break-junction
Quantum Interference
Quantum Chemistry
Nanotechnology

Supplementary materials

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Naghibi QI SI
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Now Published

Synthetic Control of Quantum Interference by Regulating Charge on a Single Atom in Heteroaromatic Molecular Junctions [opens in a new tab]
Saman Naghibi, Ali K. Ismael, Andrea Vezzoli, Mohsin K. Al-Khaykanee, Xijia Zheng, Iain M. Grace, Donald Bethell, Simon J. Higgins, Colin J. Lambert, Richard J. Nichols journal article
The Journal of Physical Chemistry Letters , Volume 10, Issue 20
Online publication date: Oct 02, 2019

Version History

Feb 05, 2019 Version 1

Version Notes

Edited TOC File (3:2 ratio)

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The content is available under CC BY NC ND 4.0 [opens in a new tab]

DOI

10.26434/chemrxiv.7667495.v1
D O I: 10.26434/chemrxiv.7667495.v1 [opens in a new tab]

Funding

EPSRC EP/M005046/1
EPSRC EP/M029522/1
EPSRC EP/M014452/1
EPSRC EP/M014169/1
EPSRC EP/P027156/1
EPSRC EP/N03337X/1
ERC FET 767187 (QuIET)
ERC Bac-to-Fuel
Tikrit University
Iraqi Ministry of Higher Education (program SL-20)

Author’s competing interest statement

No conflict of Interests

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