Researcher develops smaller, longer-lasting LED light
In the study published by the university, the scientists focused on improving certain features of LED lights, such as size, flexibility, and temperature. Assistant professor Jizhou Song was instrumental in analyzing thermal management and establishing an analytical model that reduces the temperature of the device.
“The new model uses a silicon substrate, novel etching strategies, a unique layout, and innovative thermal management method,” says Song, co-author of the study, which is titled Unusual Strategies for Using InGaN Grown on Silicon (111) for Solid State Lighting. “The combination of these manufacturing techniques allows the new design to be much smaller and keep lower temperatures than current LEDs using the same electrical power.”
In the future, researchers are interested in making the device stretchable, so that it may be used on a variety of surfaces, including deformable display monitors and biomedical devices that adapt to the curvilinear surfaces of the human body.
The corresponding authors are John Rogers, the Lee J. Flory Founder Chair in Engineering and professor of materials science and engineering at the University of Illinois at Urbana-Champaign (UIUC), and Ralph Nuzzo, G. L. Clark professor of Chemistry at UIUC. Yonggang Huang, Joseph Cummings professor of Civil and Environmental Engineering and Mechanical Engineering at Northwestern University, also is a senior author on the study.
Song’s findings were published online by the Proceedings of the National Academy of Science.