Global energy saver: Are cheaper, sustainable white LEDs the answer?

Global energy saver: Are cheaper, sustainable white LEDs the answer?

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Researchers from Rutgers University claim to have developed a less expensive, more sustainable white LED using hybrid phosphor-based technologies that could slash the world’s electricity consumption.
By eeNews Europe

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The Rutgers team is developing hybrid phosphor-based technologies that are much more sustainable, efficient and low-cost. The technologies combine common, earth-abundant metals with organic luminescent molecules to produce phosphors that emit a controllable white light from LEDs. By varying the metal and organic components, the researchers can systematically tune the color of the phosphors to regions of the visible light spectrum that are most acceptable to the human eye. The team is
continuing to experiment and develop other rare-earth-free LED phosphors based on different metals and organic compounds.

Zhichao Hu, Ph.D., a member of the Rutgers University team that performed the research under the direction of Jing Li, Ph.D., revealed details of the team’s work at the 250th National Meeting & Exposition of the American Chemical Society (ACS).

At the presentation Li claimed: “If more people in the U.S. used LEDs in their homes and businesses, the country’s electricity consumption could be cut in half.”  Li said that studies show substituting one LED light for a common incandescent light bulb in every American household could save the USA $700 million annually in energy costs.

To achieve the common, soft white light that consumers expect, current LED technologies typically use a single semiconductor chip to produce light, usually blue, and then rely on a yellow-emitting ‘phosphor’ coating to shift the color to white because LEDs do not emit a white light. The phosphor is made from materials, such as cerium-doped yttrium aluminum garnet, that are composed of rare-earth elements. The elements are expensive and in limited supply, since they are primarily available only from mining operations outside the USA. Additionally, the light output of these phosphors tends to be harsh, ‘cold’ colors.

Li’s team is developing hybrid phosphor-based technologies that are much more sustainable, efficient and low-cost. The technologies combine common, earth-abundant metals with organic luminescent molecules to produce phosphors that emit a controllable white light from LEDs. By varying the metal and organic components, the researchers can systematically tune the color of the phosphors to regions of the visible light spectrum that are most acceptable to the human eye. The team is
continuing to experiment and develop other rare-earth-free LED phosphors based on different metals and organic compounds.


Many material combinations are possible, so the researchers have used a computational approach to initially sort through the possibilities and to predict what color of light the various metals and organics combinations will emit. The team then test the best combinations experimentally.

The research team’s approach allows a systematic fine tuning of band gaps and optical emissions that cover the entire visible range, including yellow and white colors.

As a result, the LEDs can be fine-tuned to create a warmer white light, similar to cheaper but inefficient incandescent lights. The approach shows promise for use in general lighting applications.

“One of challenges we had to overcome was to figure out the right conditions to synthesize the compound,” said Hu. “Like cooking, the synthesis requires a ‘recipe’. It is often not the case that one can simply mix the starting materials together and get the desired product. We optimized the reaction conditions – temperature and the addition of a solvent – and developed an easy procedure to make the compound with high yield.”

Experiments with some materials have shown that the team’s technology can cut LED costs by as much as 90 percent from current methods that rely on rare-earth elements.


They have several granted and pending U.S. patents and are exploring manufacturing possibilities.

Related articles and links:

www.rutgers.edu

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