Press Coverage

LED Lighting May Now Shine Brighter: Scientists apprehended the atomic-scale, microscopic mechanism that limits light emission in LED lighting
News Wise, March 1, 2017

LEDs: Resolving the iron conundrum
Compound Semiconductor, December 2016

Trace amounts of transition-metal impurities in GaN kill LED efficiency
Semiconductor Today, November 11, 2016

Trace metal recombination centres kill LED efficiency
Compound Semiconductor, November 7, 2016

Trace metal recombination centers kill LED efficiency
AAAS Eureka Alert, November 3, 2016

Supercomputers Help Identify Efficiency-Limiting Defects in LEDs
NERSC.gov, July 18, 2016

Correcting charge polarization calculations for III-nitrides
Semiconductor Today, July 6, 2016

LED lighting may now shine brighter
US DOE Office of Science, Science Highlight, July 1, 2016

Unravelling the nature of point defects in nitride LEDs
Compound Semiconductor, June 4, 2016

Defects in LED diodes that lead to less efficient solid state lighting identified
Energy Daily, April 13, 2016

Certain type of vacancy in gallium nitride based LEDs lowers their efficiency
Laser Focus World, April 11, 2016

Identifying defects in LED materials promises more efficient lighting
Smart2Zero, April 7, 2016

UCSB researchers identify specific defects in LED diodes that lead to less efficient solid state lighting
AAAS Eureka Alert, April 6, 2016

Researchers identify specific defects in LED diodes that lead to less efficient solid state lighting
Phys.org, April 6, 2016

Becoming Crystal Clear: UCSB researchers identify specific defects in LED diodes that lead to less efficient solid state lighting
The UC Santa Barbara Current, April 5, 2016

Theoretical technique identifies defects in LED materials
Photonics Media, April, 2016

Aiding nitride growth with accurate surface energies
Compound Semiconductor, May 19, 2014