By 2030, about 80% of all US electricity is expected to flow through power electronics. This will require power electronic devices and circuits with much higher efficiency and smaller form-factor than today's silicon-based systems. III-Nitride semiconductors and other ultra-wide bandgap materials are ideal platforms for the new generation of power electronics thanks to the combination of excellent transport properties and the high critical electric field enabled by their wide bandgap [1]. This talk will discuss recent progress in our group in developing high voltage power transistors and diodes based on wide bandgap materials.Peer reviewe
Since power converters shape a wide range of power electronic applications, the \u27heart\u27 of the...
The scope of this chapter is to present the state of the art of the available power devices, highlig...
Switching devices are key components in any power electronic circuit or system as they control and l...
By 2030, about 80% of all US electricity is expected to flow through power electronics. This will re...
© 2015 Materials Research Society. Greener technologies for more efficient power generation, distrib...
Power electronics represents 20 % of the total electronics industry and it plays a key role in many ...
This article provides a comprehensive review of wide and ultrawide bandgap power electronic semicond...
Abstract:The development of high voltage, high current density and high temperature power devices ar...
It is the most exciting time for power electronics in decades. The combination of new applications, ...
Semiconductor power switches are necessary for the deployment of next-generation electrical systems,...
Power devices today are the technology enabling future development of power converters and systems. ...
On behalf of myself and my fellow Guest Editors for the Special Issue on Ultra Wide Band Gap Semicon...
AbstractThe Spring Materials Research Society meeting in San Francisco included Symposium-T on wide-...
The expansion of the electric vehicle market is driving the request for efficient and reliable power...
Silicon-based power devices are reaching their fundamental performance limit. The use of wide-bandga...
Since power converters shape a wide range of power electronic applications, the \u27heart\u27 of the...
The scope of this chapter is to present the state of the art of the available power devices, highlig...
Switching devices are key components in any power electronic circuit or system as they control and l...
By 2030, about 80% of all US electricity is expected to flow through power electronics. This will re...
© 2015 Materials Research Society. Greener technologies for more efficient power generation, distrib...
Power electronics represents 20 % of the total electronics industry and it plays a key role in many ...
This article provides a comprehensive review of wide and ultrawide bandgap power electronic semicond...
Abstract:The development of high voltage, high current density and high temperature power devices ar...
It is the most exciting time for power electronics in decades. The combination of new applications, ...
Semiconductor power switches are necessary for the deployment of next-generation electrical systems,...
Power devices today are the technology enabling future development of power converters and systems. ...
On behalf of myself and my fellow Guest Editors for the Special Issue on Ultra Wide Band Gap Semicon...
AbstractThe Spring Materials Research Society meeting in San Francisco included Symposium-T on wide-...
The expansion of the electric vehicle market is driving the request for efficient and reliable power...
Silicon-based power devices are reaching their fundamental performance limit. The use of wide-bandga...
Since power converters shape a wide range of power electronic applications, the \u27heart\u27 of the...
The scope of this chapter is to present the state of the art of the available power devices, highlig...
Switching devices are key components in any power electronic circuit or system as they control and l...