Recent experimental and theoretical findings of the effect of bulk properties, conductance, surface structure, and point defects in energy dissipation in various systems, including metals, semiconductors, quasicrystals, two-dimensional sheets, and organic molecular films is reported. A host of new phenomena, including friction anisotropy, superlubricity, and velocity dependence, have been uncovered and studied. In these experiments, the probe is brought into contact with an electron transparent sample and the interface is imaged in the TEM during contact while the probe simultaneously measures electrical (STM) or mechanical signals. In situ TEM techniques have already made it possible to directly measure electrical and mechanical properties...
We investigated charge transport mechanisms at the interface between 1,8 octanedithiol (ODT) and gol...
Numerous researchers have focused on the relation between kinetic friction and the surface propertie...
Abstract. The formation and rupture of atomic-sized contacts is modelled by means of molecular dynam...
We in-situ observed the deformation of a gold single real contact point at the nanoscale during fric...
The tribological phenomena of adhesion, friction, and wear arise when solid objects make contact. As...
Friction in nanoscale contacts is determined by the size and structure of the interface that is hidd...
Nanoscale contacts are relevant in advanced technologies like nanomanufacturing, scanning probe micr...
Sustainability has become an integral part of todays society. A thorough understanding of friction a...
This paper presents an analysis of the interaction energy and various forces between two surfaces, a...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
Frictional forces acting during the relative motion of nanosurfaces are the cause of energy loss and...
Understanding electron transfer (ET) on the nanoscale is important to both the frontier of fundament...
Direct observation of events taking place at the contacting interfaces is important to understand ma...
The frictional motion of contacting bodies is an ubiquitous phenomenon in physics. It encompasses a ...
International audienceThis paper concerns an experimental and theoretical study of the transition be...
We investigated charge transport mechanisms at the interface between 1,8 octanedithiol (ODT) and gol...
Numerous researchers have focused on the relation between kinetic friction and the surface propertie...
Abstract. The formation and rupture of atomic-sized contacts is modelled by means of molecular dynam...
We in-situ observed the deformation of a gold single real contact point at the nanoscale during fric...
The tribological phenomena of adhesion, friction, and wear arise when solid objects make contact. As...
Friction in nanoscale contacts is determined by the size and structure of the interface that is hidd...
Nanoscale contacts are relevant in advanced technologies like nanomanufacturing, scanning probe micr...
Sustainability has become an integral part of todays society. A thorough understanding of friction a...
This paper presents an analysis of the interaction energy and various forces between two surfaces, a...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
Frictional forces acting during the relative motion of nanosurfaces are the cause of energy loss and...
Understanding electron transfer (ET) on the nanoscale is important to both the frontier of fundament...
Direct observation of events taking place at the contacting interfaces is important to understand ma...
The frictional motion of contacting bodies is an ubiquitous phenomenon in physics. It encompasses a ...
International audienceThis paper concerns an experimental and theoretical study of the transition be...
We investigated charge transport mechanisms at the interface between 1,8 octanedithiol (ODT) and gol...
Numerous researchers have focused on the relation between kinetic friction and the surface propertie...
Abstract. The formation and rupture of atomic-sized contacts is modelled by means of molecular dynam...