Thermal transport through liquid-solid interfaces plays an important role in many chemical and biological processes, and better understanding of liquid-solid energy transfer is expected to enable improving the efficiency of thermally driven applications. We determine the spectral distribution of thermal current at liquid-solid interfaces from nonequilibrium molecular dynamics, delivering a detailed picture of the contributions of different vibrational modes to liquid-solid energy transfer. Our results show that surface modes located at the Brillouin zone edge and polarized along the liquid-solid surface normal play a crucial role in liquid-solid energy transfer. Strong liquid-solid adhesion allows also for the coupling of in-plane polarized...
Understanding of energy transport across the solid liquid interface is essential for the rational de...
Near a fluid-solid interface, the fluid spatial density profile is highly nonuniform at the molecula...
Open Access. This material is posted here with the permission of the publisher.We study the interfac...
The variation of the liquid properties in the vicinity of a solid surface complicates the descriptio...
Liquid molecules located at the interfacial region behave differently than they do in the bu...
The effects of surface irregularities and imperfections on the thermal resistance at a solid-liquid ...
Solid-liquid (S-L) interfaces is widely used in lubrication and coating systems, in which the heat t...
The variation of the liquid properties in the vicinity of a solid surface complicates the descriptio...
Solid-liquid (S-L) interfaces is widely used in lubrication and coating systems, in which the heat t...
The non-equilibrium molecular dynamics (NEMD) simulation of ultra-thin liquid film of solid in conta...
iii This thesis focuses on the experimental study of nanoscale thermal transport across solid-liquid...
We investigated the solid-liquid work of adhesion of water on a model silica surface by molecular dy...
Understanding the effects and limitations of solid/liquid interfaces on energy transport is crucial ...
Interfacial thermal conductance (ITC) quantifies heat transport across material-fluid interfaces. It...
Evidence is accumulating for the crucial role of a solid’s free electrons in the dynamics of solid–l...
Understanding of energy transport across the solid liquid interface is essential for the rational de...
Near a fluid-solid interface, the fluid spatial density profile is highly nonuniform at the molecula...
Open Access. This material is posted here with the permission of the publisher.We study the interfac...
The variation of the liquid properties in the vicinity of a solid surface complicates the descriptio...
Liquid molecules located at the interfacial region behave differently than they do in the bu...
The effects of surface irregularities and imperfections on the thermal resistance at a solid-liquid ...
Solid-liquid (S-L) interfaces is widely used in lubrication and coating systems, in which the heat t...
The variation of the liquid properties in the vicinity of a solid surface complicates the descriptio...
Solid-liquid (S-L) interfaces is widely used in lubrication and coating systems, in which the heat t...
The non-equilibrium molecular dynamics (NEMD) simulation of ultra-thin liquid film of solid in conta...
iii This thesis focuses on the experimental study of nanoscale thermal transport across solid-liquid...
We investigated the solid-liquid work of adhesion of water on a model silica surface by molecular dy...
Understanding the effects and limitations of solid/liquid interfaces on energy transport is crucial ...
Interfacial thermal conductance (ITC) quantifies heat transport across material-fluid interfaces. It...
Evidence is accumulating for the crucial role of a solid’s free electrons in the dynamics of solid–l...
Understanding of energy transport across the solid liquid interface is essential for the rational de...
Near a fluid-solid interface, the fluid spatial density profile is highly nonuniform at the molecula...
Open Access. This material is posted here with the permission of the publisher.We study the interfac...