Corentin Durand

TL;DR: A combined scanning tunnelling microscopy and first-principles theory study of the graphene-boron nitride boundary is presented to provide a first glimpse into the spatial and energetic distributions of the one-dimensional boundary states down to atomic resolution, suggesting that unconventional physical effects similar to those observed at two-dimensional interfaces can also exist in lower dimensions.

TL;DR: The experimental STM dI/dV and theoretical elastic scattering quantum chemistry maps of the low-lying tunneling resonances confirmed the flat conformer BBD molecule STM production.

TL;DR: A new method is shown to differentiate conductivities from the surface states and the coexisting bulk states in topological insulators using a four-probe transport spectroscopy in a multiprobe scanning tunneling microscopy system to derive a scaling relation of measured resistance with respect to varying interprobe spacing for two interconnected conduction channels.

TL;DR: This work probes the 4'-(4-tolyl)-2,2':6',2″-terpyridine adsorbed on the Au(111) herringbone structure combining scanning tunneling microscopy and atomic force microscopy, and quantifies local variation of the surface potential and the lateral force required to move the molecule.

TL;DR: A contactless, solution-based method to efficiently measure the electrical conductivity of 1D nanomaterials based on their transient alignment behavior in ac electric fields of different frequencies and finds significant variability in silicon nanowires grown by metal-assisted chemical etching from the same wafer.