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Cause of LED efficiency droop finally revealed: Auger recombination responsible

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Posted April 24, 2013
LED emitting light under forward bias in an ultra high vacuum chamber allowing simultaneous electron emission energy. Credit: Ecole Polytechnique, Ph. Lavialle

LED emitting light under forward bias in an ultra high vacuum chamber allowing simultaneous electron emission energy. Credit: Ecole Polytechnique, Ph. Lavialle

Researchers at University of California, Santa Barbara, in collaboration with colleagues at the École Polytechnique in France, have conclusively identified Auger recombination as the mechanism that causes light emitting diodes (LEDs) to be less efficient at high drive currents.

Until now, scientists had only theorized the cause behind the phenomenon known as LED “droop”—a mysterious drop in the light produced when a higher current is applied. The cost per lumen of LEDs has held the technology back as a viable replacement forincandescent bulbs for all-purpose commercial and residential lighting.

This could all change now that the cause of LED efficiency droop has been explained, according to researchers James Speck and Claude Weisbuch of the Center for Energy Efficient Materials at UCSB, an Energy Frontier Research Center sponsored by the U.S. Department of Energy.

Knowledge gained from this study is expected to result in new ways to design LEDs that will have significantly higher light emission efficiencies. LEDs have enormous potential for providing long-lived high quality efficient sources of lighting for residential and commercial applications. The U.S. Department of Energy recently estimated that the widespread replacement of incandescent and fluorescent lights by LEDs in the U.S. could save electricity equal to the total output of fifty 1GW power plants.

“Rising to this potential has been contingent upon solving the puzzle of LED efficiency droop,” commented Speck, professor of Materials and the Seoul Optodevice Chair in Solid State Lighting at UCSB. “These findings will enable us to design LEDs that minimize the non-radiative recombination and produce higher light output.”

Read more at: Phys.org

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