Ronald J. Warzoha scite author profile

We study the electron and phonon thermal coupling mechanisms at interfaces between gold films with and without Ti adhesion layers on various substrates via pump-probe time-domain thermoreflectance. The coupling between the electronic and the vibrational states is increased by more than a factor of five with the inclusion of an $3 nm Ti adhesion layer between the Au film and the nonmetal substrate. Furthermore, we show an increase in the rate of relaxation of the electron system with increasing electron and lattice temperatures induced by the laser power and attribute this to enhanced electron-electron scattering, a transport channel that becomes more pronounced with increased electron temperatures. The inclusion of the Ti layer also results in a linear dependence of the electron-phonon relaxation rate with temperature, which we attribute to the coupling of electrons at and near the Ti/substrate interface. This enhanced electron-phonon coupling due to electroninterface scattering is shown to have negligible influence on the Kapitza conductances between the Au/Ti and the substrates at longer time scales when the electrons and phonons in the metal have equilibrated. These results suggest that only during highly nonequilibrium conditions between the electrons and phonons (T e ) T p ) does electron-phonon scattering at an interface contribute to thermal boundary conductance. V C 2015 AIP Publishing LLC. [http://dx.

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Heat flow at nanoparticle interfaces

Warzoha

Fleischer

2014

Nano Energy

131

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Energy storage and solidification of paraffin phase change material embedded with graphite nanofibers

Sanusi¹,

Warzoha²,

Fleischer³

2011

International Journal of Heat and Mass Transfer

157

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Temperature-dependent thermal properties of a paraffin phase change material embedded with herringbone style graphite nanofibers

2015

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Ronald J. Warzoha

High-temperature polymers with record-high breakdown strength enabled by rationally designed chain-packing behavior in blends

Mechanisms of nonequilibrium electron-phonon coupling and thermal conductance at interfaces

Heat flow at nanoparticle interfaces

Energy storage and solidification of paraffin phase change material embedded with graphite nanofibers

Temperature-dependent thermal properties of a paraffin phase change material embedded with herringbone style graphite nanofibers

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