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Literature DB >> 30215882

Tuning Charge Transport in Aromatic-Ring Single-Molecule Junctions via Ionic-Liquid Gating.

Na Xin¹, Xingxing Li², Chuancheng Jia¹, Yao Gong¹, Mingliang Li¹, Shuopei Wang³, Guangyu Zhang³, Jinlong Yang², Xuefeng Guo¹.

Abstract

Achieving gate control with atomic precision, which is crucial to the transistor performance on the smallest scale, remains a challenge. Herein we report a new class of aromatic-ring molecular nanotransistors based on graphene-molecule-graphene single-molecule junctions by using an ionic-liquid gate. Experimental phenomena and theoretical calculations confirm that this ionic-liquid gate can effectively modulate the alignment between molecular frontier orbitals and the Fermi energy level of graphene electrodes, thus tuning the charge-transport properties of the junctions. In addition, with a small gate voltage (|VG |≤1.5 V) ambipolar charge transport in electrochemically inactive molecular systems (EG >3.5 eV) is realized. These results offer a useful way to build high-performance single-molecule transistors, thus promoting the prospects for molecularly engineered electronic devices.

Entities: Chemical

Keywords: aromatic rings; charge transport; graphene; ionic liquids; single-molecule junction

Year: 2018 PMID： 30215882 DOI： 10.1002/anie.201807465

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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