Molecular fin effect from heterogeneous self-assembled monolayer enhances thermal conductance across hard–soft interfaces
Thermal transport across hard–soft interfaces is critical to many modern applications, such
as composite materials, thermal management in microelectronics, solar–thermal phase
transition, and nanoparticle-assisted hyperthermia therapeutics. In this study, we use
equilibrium molecular dynamics (EMD) simulations combined with the Green–Kubo method
to study how molecularly heterogeneous structures of the self-assembled monolayer (SAM)
affect the thermal transport across the interfaces between the SAM-functionalized gold and …
as composite materials, thermal management in microelectronics, solar–thermal phase
transition, and nanoparticle-assisted hyperthermia therapeutics. In this study, we use
equilibrium molecular dynamics (EMD) simulations combined with the Green–Kubo method
to study how molecularly heterogeneous structures of the self-assembled monolayer (SAM)
affect the thermal transport across the interfaces between the SAM-functionalized gold and …
[引用][C] Molecular Fin Effect from Heterogeneous Self-Assembled Monolayer Enhances Thermal Conductance across Hard–Soft Interfaces
W Xingfei, Z Teng, L Tengfei - 2017
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