%0 Journal Article
%A Nirmalraj, Peter
%A Thompson, Damien
%A Molina Ontoria, Agustín
%A Sousa, Marilyne
%A Martín, Nazario
%A Gotsmann, Bernd
%A Riel, Heike
%T Nanoelectrical analysis of single molecules and atomic-scale materials at the solid/liquid interface
%D 2014
%@ 1476-1122, EISSN: 1476-4660
%U https://hdl.handle.net/20.500.14352/35135
%X Evaluating the built-in functionality of nanomaterials under practical conditions is central for their proposed integration as active components in next-generation electronics. Low-dimensional materials from single atoms to molecules have been consistently resolved and manipulated under ultrahigh vacuum at low temperatures. At room temperature, atomic-scale imaging has also been performed by probing materials at the solid/liquid interface. We exploit this electrical interface to develop a robust electronic decoupling platform that provides precise information on molecular energy levels recorded using in situ scanning tunnelling microscopy/spectroscopy with high spatial and energy resolution in a high-density liquid environment. Our experimental findings, supported by ab initio electronic structure calculations and atomic-scale molecular dynamics simulations, reveal direct mapping of single-molecule structure and resonance states at the solid/liquid interface.We further extend this approach to resolve the electronic structure of graphene monolayers at atomic length scales under standard room-temperature operating conditions.
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