The efficiency challenge of nitride light-emitting diodes for lighting

Claude Weisbuch; Marco Piccardo; Lucio Martinelli; Justin Iveland; Jacques Peretti; James S. Speck

doi:10.1002/pssa.201431868

The efficiency challenge of nitride light-emitting diodes for lighting

Claude Weisbuch
, Marco Piccardo
, Lucio Martinelli
, Justin Iveland
, Jacques Peretti
, James S. Speck

University of California

Research output: Contribution to journal › Article › peer-review

Abstract

We discuss the challenges of light-emitting diodes in view of their application to solid-state lighting. The requirement is to at least displace the quite efficient fluorescent, sodium, and high intensity discharge lamps used today in the main energy consuming lighting sectors, industrial, commercial and outdoors, with more efficient and better light quality lamps. We show that both from the point of view of cost of ownership and carbon emissions reduction, the relevant metric is efficiency, more than the cost of lumens. Then, progress from present performance requires identification of the loss mechanisms in light emission from LEDs, and solutions competing with mainstream c-plane LEDS grown on sapphire need to be on par with these. Special attention is devoted to a discussion of the efficiency droop mechanisms, and of a recent direct measurement of Auger generated electrons which appear to be responsible for droop.

Original language	English
Pages (from-to)	899-913
Number of pages	15
Journal	Physica Status Solidi (A) Applications and Materials Science
Volume	212
Issue number	5
DOIs	https://doi.org/10.1002/pssa.201431868
Publication status	Published - 1 May 2015

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

GaN
efficiency droop
energy efficiency
light-emitting diodes
nitride semiconductors
solid-state lighting

Access to Document

10.1002/pssa.201431868

Cite this

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title = "The efficiency challenge of nitride light-emitting diodes for lighting",

abstract = "We discuss the challenges of light-emitting diodes in view of their application to solid-state lighting. The requirement is to at least displace the quite efficient fluorescent, sodium, and high intensity discharge lamps used today in the main energy consuming lighting sectors, industrial, commercial and outdoors, with more efficient and better light quality lamps. We show that both from the point of view of cost of ownership and carbon emissions reduction, the relevant metric is efficiency, more than the cost of lumens. Then, progress from present performance requires identification of the loss mechanisms in light emission from LEDs, and solutions competing with mainstream c-plane LEDS grown on sapphire need to be on par with these. Special attention is devoted to a discussion of the efficiency droop mechanisms, and of a recent direct measurement of Auger generated electrons which appear to be responsible for droop.",

keywords = "GaN, efficiency droop, energy efficiency, light-emitting diodes, nitride semiconductors, solid-state lighting",

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T1 - The efficiency challenge of nitride light-emitting diodes for lighting

AU - Weisbuch, Claude

AU - Piccardo, Marco

AU - Martinelli, Lucio

AU - Iveland, Justin

AU - Peretti, Jacques

AU - Speck, James S.

PY - 2015/5/1

Y1 - 2015/5/1

N2 - We discuss the challenges of light-emitting diodes in view of their application to solid-state lighting. The requirement is to at least displace the quite efficient fluorescent, sodium, and high intensity discharge lamps used today in the main energy consuming lighting sectors, industrial, commercial and outdoors, with more efficient and better light quality lamps. We show that both from the point of view of cost of ownership and carbon emissions reduction, the relevant metric is efficiency, more than the cost of lumens. Then, progress from present performance requires identification of the loss mechanisms in light emission from LEDs, and solutions competing with mainstream c-plane LEDS grown on sapphire need to be on par with these. Special attention is devoted to a discussion of the efficiency droop mechanisms, and of a recent direct measurement of Auger generated electrons which appear to be responsible for droop.

AB - We discuss the challenges of light-emitting diodes in view of their application to solid-state lighting. The requirement is to at least displace the quite efficient fluorescent, sodium, and high intensity discharge lamps used today in the main energy consuming lighting sectors, industrial, commercial and outdoors, with more efficient and better light quality lamps. We show that both from the point of view of cost of ownership and carbon emissions reduction, the relevant metric is efficiency, more than the cost of lumens. Then, progress from present performance requires identification of the loss mechanisms in light emission from LEDs, and solutions competing with mainstream c-plane LEDS grown on sapphire need to be on par with these. Special attention is devoted to a discussion of the efficiency droop mechanisms, and of a recent direct measurement of Auger generated electrons which appear to be responsible for droop.

KW - GaN

KW - efficiency droop

KW - energy efficiency

KW - light-emitting diodes

KW - nitride semiconductors

KW - solid-state lighting

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The efficiency challenge of nitride light-emitting diodes for lighting

Abstract

UN SDGs

Keywords

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