Add to ORKGInternational audienceBecause of its high thermal conductivity and dielectric strength, diamond is a promising material for thermal management in high voltage, high power electronics. In this paper we present our investigation of CVD polycrystalline diamond films for heat sink applications. Dielectric strength and thermal conductivity have been measured at room temperature, for either home made or commercial samples. Though the measured dielectric strength remains lower than the 10 MV/cm expected value (greatly impacted by the surface polishing), the interest of diamond is confirmed
This work describes an experimental study of the cross-plane thermal conductance of plasma-enhanced ...
Chemical Vapor Deposition (CVD) Diamond is a promising technology for the passive cooling of high po...
In this paper, we report the first measurement of impedance on freestanding diamond films from 0.1 H...
International audienceBecause of its high thermal conductivity and dielectric strength, diamond is a...
In this overview the mechanical, thermal and electrical properties of CVD (Chemical Vapor Deposition...
The very high thermal conductivity of diamond was first noted in measurements performed by Eucken on...
AbstractAn experimental thermal characterization method is developed for high thermal conductivity t...
Diamond is a diverse material whose extreme properties make it ideal for many applications. In order...
Results from an experimental study on the rapid measurement of thermal conductivity of chemical vapo...
The possibility to realize a high sensitive thermocouple by means of boron doped chemical vapour dep...
The studies in this dissertation cover on various techniques to uncover morphologies of diamond film...
As any semiconductor-based devices, power electronic packages are driven by the constant increase of...
Thermal dissipating is very important in the semiconductor industry, because every semiconductor com...
Diamond films grown by microwave plasma enhanced chemical vapor deposition technique exhibit differe...
International audienceThe present paper aims to provide a better insight to the dielectric charging ...
This work describes an experimental study of the cross-plane thermal conductance of plasma-enhanced ...
Chemical Vapor Deposition (CVD) Diamond is a promising technology for the passive cooling of high po...
In this paper, we report the first measurement of impedance on freestanding diamond films from 0.1 H...
International audienceBecause of its high thermal conductivity and dielectric strength, diamond is a...
In this overview the mechanical, thermal and electrical properties of CVD (Chemical Vapor Deposition...
The very high thermal conductivity of diamond was first noted in measurements performed by Eucken on...
AbstractAn experimental thermal characterization method is developed for high thermal conductivity t...
Diamond is a diverse material whose extreme properties make it ideal for many applications. In order...
Results from an experimental study on the rapid measurement of thermal conductivity of chemical vapo...
The possibility to realize a high sensitive thermocouple by means of boron doped chemical vapour dep...
The studies in this dissertation cover on various techniques to uncover morphologies of diamond film...
As any semiconductor-based devices, power electronic packages are driven by the constant increase of...
Thermal dissipating is very important in the semiconductor industry, because every semiconductor com...
Diamond films grown by microwave plasma enhanced chemical vapor deposition technique exhibit differe...
International audienceThe present paper aims to provide a better insight to the dielectric charging ...
This work describes an experimental study of the cross-plane thermal conductance of plasma-enhanced ...
Chemical Vapor Deposition (CVD) Diamond is a promising technology for the passive cooling of high po...
In this paper, we report the first measurement of impedance on freestanding diamond films from 0.1 H...