<--- Back to Details
First PageDocument Content
Pacifico Yokohama / Gallium nitride / Wide bandgap semiconductors / Osram Opto Semiconductors GmbH / Chemistry / Isamu Akasaki / Light-emitting diode
Date: 2015-01-09 08:43:49
Pacifico Yokohama
Gallium nitride
Wide bandgap semiconductors
Osram Opto Semiconductors GmbH
Chemistry
Isamu Akasaki
Light-emitting diode

Microsoft Word - LEDIA2015_Call_ver01_141223.doc

Add to Reading List

Source URL: opicon.jp

Download Document from Source Website

File Size: 1,04 MB

Share Document on Facebook

Similar Documents

Wide bandgap nitride and oxide semiconductors: pulsed laser deposition, film characterization, and device applications Dong-Sing Wuu1,2 1 2

DocID: 1oiG0 - View Document

Brazilian Journal of Physics, vol. 28, no. 1, March, Optical Studies of Undoped and Doped Wide Bandgap Carbide and Nitride Semiconductors

DocID: 1nJO3 - View Document

Pacifico Yokohama / Gallium nitride / Wide bandgap semiconductors / Osram Opto Semiconductors GmbH / Chemistry / Isamu Akasaki / Light-emitting diode

Microsoft Word - LEDIA2015_Call_ver01_141223.doc

DocID: 13LdL - View Document

Semiconductor devices / Solar cells / Wide bandgap semiconductors / Gallium nitride / Light-emitting diode / Silicon carbide / Gallium arsenide / Diode / Power electronics / Chemistry / Compound semiconductors / Inorganic compounds

ADVANCED MANUFACTURING OFFICE Wide Bandgap Semiconductors: Pursuing the Promise Superior semiconductor materials will

DocID: 13BVd - View Document

Photoelectrochemistry / Energy conversion / Semiconductor devices / Wide bandgap semiconductors / Multijunction photovoltaic cell / Zinc selenide / Photoelectrolysis / Photocatalysis / Electrocatalyst / Chemistry / Photochemistry / Solar cells

Photoelectrolysis of H2O: New insights into an old problem? One of the most demanding areas of integration of energy technologies is related to the production and use of fuels from regenerative primary energy sources. Di

DocID: 12IEY - View Document