Diamond is an astonishing material. Used mainly for jewelry, it is today studied for electronic devices to be operated in harsh environment or as the base material for high power, high frequency applications due to the unique electrical, physical, chemical and mechanical properties. Diamond can be classified as a wide band gap semiconductor and suitability for performance in the microwave range is today demonstrated through an affordable deposition technology and rather simple device structures. Difficulties related to availability of large crystalline substrates and effective doping can be overcome with polycrystalline substrates in some cases demonstrating performances better than epitaxial ones
Because of its ultrahigh hardness, synthetic diamond has been widely used in advanced manufacturing ...
Thanks to its wide bandgap, exceptionally high thermal conductivity and relatively high carrier velo...
Diamond is the hardest and most wear resistant rnaterial known. It has a unique combination of the h...
Diamond is an astonishing material. Used mainly for jewelry, it is today studied for electronic devi...
Progress in power electronic devices is currently accepted through the use of wide bandgap materials...
In the future, electronic parts will penetrate everything, generating a new and fast-growing polluti...
Diamond is a promising semiconductor material for high power, high voltage, high temperature and hig...
Research on wide band gap semiconductors suitable for power electronic devices has spread rapidly in...
Diamond offers many advantages over other wide-bandgap materials and thus is a very important materi...
The physical operation, crystal growth, optical lithography and electron-beam lithography fabricatio...
In the ideal form diamond displays extreme physical, optical and electronic properties, making this ...
Diamond films grown by microwave plasma enhanced chemical vapor deposition technique exhibit differe...
The superior electrical and thermal properties of diamond predestine this material to become an impo...
Diamond gemstones were very well appreciated in the antique world. Independent on the purpose ...
Preparation, properties and application of diamond and diamondlike coatings have been the subject of...
Because of its ultrahigh hardness, synthetic diamond has been widely used in advanced manufacturing ...
Thanks to its wide bandgap, exceptionally high thermal conductivity and relatively high carrier velo...
Diamond is the hardest and most wear resistant rnaterial known. It has a unique combination of the h...
Diamond is an astonishing material. Used mainly for jewelry, it is today studied for electronic devi...
Progress in power electronic devices is currently accepted through the use of wide bandgap materials...
In the future, electronic parts will penetrate everything, generating a new and fast-growing polluti...
Diamond is a promising semiconductor material for high power, high voltage, high temperature and hig...
Research on wide band gap semiconductors suitable for power electronic devices has spread rapidly in...
Diamond offers many advantages over other wide-bandgap materials and thus is a very important materi...
The physical operation, crystal growth, optical lithography and electron-beam lithography fabricatio...
In the ideal form diamond displays extreme physical, optical and electronic properties, making this ...
Diamond films grown by microwave plasma enhanced chemical vapor deposition technique exhibit differe...
The superior electrical and thermal properties of diamond predestine this material to become an impo...
Diamond gemstones were very well appreciated in the antique world. Independent on the purpose ...
Preparation, properties and application of diamond and diamondlike coatings have been the subject of...
Because of its ultrahigh hardness, synthetic diamond has been widely used in advanced manufacturing ...
Thanks to its wide bandgap, exceptionally high thermal conductivity and relatively high carrier velo...
Diamond is the hardest and most wear resistant rnaterial known. It has a unique combination of the h...
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