Add to ORKGDemand for miniaturized electronic devices has given rise to new challenges in thermal management. Integration with graphene, a two-dimensional (2D) material with excellent thermal properties, allows for further reduced sizes and combats thermal management issues within novel devices. Moreover, due to its wide availability and adequate thermal properties, liquid water is commonly used within traditional thermal systems to enhance cooling performance; as such, water is expected to yield similar performance in smaller-scale applications. However, at reduced sizes descending to the nanoscale realm, system behaviors deviate from traditional macroscale-based theory as interfacial effects become amplified. Employing insight provided by molecular ...
We investigate the general dependence of the thermal transport across nanoparticle–fluid interfaces ...
Nanofluidics is an emerging field offering innovative solutions for energy harvesting and desalinati...
The convective heat transfer in the Micro/ Nanoscale channel is of significant importance in enginee...
Slip lengths reported from molecular dynamics (MD) simulations of water flow in graphene nanochannel...
The thermal coupling at water-solid interfaces is a key factor in controlling thermal resistance and...
Liquid molecules located at the interfacial region behave differently than they do in the bu...
© 2018 Elsevier B.V. The rate of water evaporation as fundamental phase-change phenomenon is critica...
Nanofluidics, the study of fluid transport at nanometer scales, appears as a promising field to tack...
Interfaces are ubiquitous at the nanoscale in a range of materials and typically play a key role in ...
Phase change has long been known to be an efficient method of heat transfer, due to the latent energ...
Especially at the nanometer scale interfaces play an important role. The effect of the wettability o...
Deionized water flow through positively charged graphene nano-channels is investigated using molecul...
A better physical understanding of heat and mass transfer of water at nanoscale solid interfaces is ...
Motivated by electrowetting-based flow control in nano-systems, water transport in graphene nano-cha...
Equilibrium molecular dynamics simulations are used to investigate the effect of phase transitions o...
We investigate the general dependence of the thermal transport across nanoparticle–fluid interfaces ...
Nanofluidics is an emerging field offering innovative solutions for energy harvesting and desalinati...
The convective heat transfer in the Micro/ Nanoscale channel is of significant importance in enginee...
Slip lengths reported from molecular dynamics (MD) simulations of water flow in graphene nanochannel...
The thermal coupling at water-solid interfaces is a key factor in controlling thermal resistance and...
Liquid molecules located at the interfacial region behave differently than they do in the bu...
© 2018 Elsevier B.V. The rate of water evaporation as fundamental phase-change phenomenon is critica...
Nanofluidics, the study of fluid transport at nanometer scales, appears as a promising field to tack...
Interfaces are ubiquitous at the nanoscale in a range of materials and typically play a key role in ...
Phase change has long been known to be an efficient method of heat transfer, due to the latent energ...
Especially at the nanometer scale interfaces play an important role. The effect of the wettability o...
Deionized water flow through positively charged graphene nano-channels is investigated using molecul...
A better physical understanding of heat and mass transfer of water at nanoscale solid interfaces is ...
Motivated by electrowetting-based flow control in nano-systems, water transport in graphene nano-cha...
Equilibrium molecular dynamics simulations are used to investigate the effect of phase transitions o...
We investigate the general dependence of the thermal transport across nanoparticle–fluid interfaces ...
Nanofluidics is an emerging field offering innovative solutions for energy harvesting and desalinati...
The convective heat transfer in the Micro/ Nanoscale channel is of significant importance in enginee...