Your search keyword '"Gerbi, Andrea"' showing total 2 results

1. Giant frictional dissipation peaks and charge-density-wave slips at the NbSe2 surface.

Author

Langer, Markus, Kisiel, Marcin, Pawlak, Rémy, Pellegrini, Franco, Santoro, Giuseppe E., Buzio, Renato, Gerbi, Andrea, Balakrishnan, Geetha, Baratoff, Alexis, Tosatti, Erio, and Meyer, Ernst

Subjects

ENERGY dissipation, NIOBIUM compounds, CHARGE density waves, NANOTECHNOLOGY, FRICTION, METALLIC surfaces, SUPERCONDUCTIVITY

Abstract

Understanding nanoscale friction and dissipation is central to nanotechnology. The recent detection of the electronic-friction drop caused by the onset of superconductivity in Nb (ref. ) by means of an ultrasensitive non-contact pendulum atomic force microscope (AFM) raised hopes that a wider variety of mechanical-dissipation mechanisms become accessible. Here, we report a multiplet of AFM dissipation peaks arising a few nanometres above the surface of NbSe2-a layered compound exhibiting an incommensurate charge-density wave (CDW). Each peak appears at a well-defined tip-surface interaction force of the order of a nanonewton, and persists up to 70 K, where the short-range order of CDWs is known to disappear. Comparison of the measurements with a theoretical model suggests that the peaks are associated with local, tip-induced 2π phase slips of the CDW, and that dissipation maxima arise from hysteretic behaviour of the CDW phase as the tip oscillates at specific distances where sharp local slips occur. [ABSTRACT FROM AUTHOR]

Published

2014

2. Chemisorption, Morphology, and Structure of a n-Type Perylene Diimide Derivative at the Interface with Gold: Influence on Devices from Thin Films to Single Molecules

Author

Ruslan Ovsyannikov, Maria Benedetta Casu, Thomas Chassé, Francesca Ciccullo, Maximilian Bauer, Sabine-Antonia Savu, Andrea Gerbi, Antonio Cassinese, Ciccullo, Francesca, Antonia Savu, Sabine, Gerbi, Andrea, Bauer, Maximilian, Ovsyannikov, Ruslan, Cassinese, Antonio, Chassé, Thoma, and Benedetta Casu, Maria

Subjects

Organic electronics, X-ray absorption spectroscopy, Molecular Structure, Chemistry, Organic Chemistry, Nanotechnology, General Chemistry, Substrate (electronics), Imides, Catalysis, Crystallography, chemistry.chemical_compound, Chemisorption, Diimide, Nitriles, Monolayer, Gold, Thin film, Perylene

Abstract

We have investigated thin films of a perylene diimide derivative with a cyano-functionalized core (PDI-8CN2) deposited on Au(111) single crystals from the monolayer to the multilayer regime. We found that PDI-8CN2 is chemisorbed on gold. The molecules experience a thickness-dependent reorientation, and a 2D growth mode with molecular stepped terraces is achieved adopting low deposition rates. The obtained results are discussed in terms of their impact on field effect devices, also clarifying why the use of substrate/contact treatments, decoupling PDI-8CN2 molecules from the substrate/contacts, is beneficial for such devices. Our results also suggest that perylene diimide derivatives with CN bay-functionalization are very promising candidates for single-molecule electronic devices.

Published

2015