Electronic conduction during the formation stages of a single-molecule junction

Beilstein J Nanotechnol. 2018 May 17:9:1471-1477. doi: 10.3762/bjnano.9.138. eCollection 2018.

Abstract

Single-molecule junctions are versatile test beds for electronic transport at the atomic scale. However, not much is known about the early formation steps of such junctions. Here, we study the electronic transport properties of premature junction configurations before the realization of a single-molecule bridge based on vanadocene molecules and silver electrodes. With the aid of conductance measurements, inelastic electron spectroscopy and shot noise analysis, we identify the formation of a single-molecule junction in parallel to a single-atom junction and examine the interplay between these two conductance pathways. Furthermore, the role of this structure in the formation of single-molecule junctions is studied. Our findings reveal the conductance and structural properties of premature molecular junction configurations and uncover the different scenarios in which a single-molecule junction is formed. Future control over such processes may pave the way for directed formation of preferred junction structures.

Keywords: break junction; electronic transport; electron–vibration interactions; inelastic electron tunneling spectroscopy; molecular junction; molecular vibration; quantum interference; shot noise.