Litcius/Paper detail

Modulating Quantum Interference Between Destructive and Constructive States in Double N‐Substituted Single Molecule Junctions

Zi‐Zhen Chen, Shun‐Da Wu, Jin‐Liang Lin, Li‐Chuan Chen, Jingjing Cao, Xiangfeng Shao, Colin J. Lambert, Hao‐Li Zhang

2022Advanced Electronic Materials12 citationsDOIOpen Access PDF

Abstract

Abstract Quantum interference (QI) plays a crucial role in determining the charge transport in molecular devices. In this work, the efficient modulation of QI in meta‐phenylene ethylene oligomer molecular devices by a double N‐substitution strategy is demonstrated. By altering the positions of two N atoms in the central ring with respect to the connecting sites, the molecular conductance can be tuned by more than one order of magnitude. Theoretical analysis, including magic ratio theory, orbital rule, and transmission simulations, reveals how the two N atoms synergistically modulate the molecule conductance between destructive QI and constructive QI states. Remarkably, addition of a second N atom does not simple reinforce the effect of the first; in contrast, it may completely cancel the effect of the first. Understanding the complex electronic interplay between the two N atoms in double N‐substituted molecules paves a path toward utilization of heterocyclic aromatic hydrocarbons in molecular electronics.

Topics & Concepts

ConductanceMoleculePhenyleneMolecular electronicsMaterials scienceChemical physicsMolecular orbitalQuantumInterference (communication)NanotechnologyQuantum mechanicsPhysicsCondensed matter physicsPolymerTelecommunicationsComputer scienceChannel (broadcasting)Composite materialMolecular Junctions and NanostructuresOrganic Electronics and PhotovoltaicsSemiconductor materials and devices