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Written by AZoMMar 15 2021 By applying laser spectroscopy in a photophysics experiment, scientists from Clemson University have made a new breakthrough that may lead to faster and more affordable energy to drive electronics. From left, Pan Adhikari, Lawrence Coleman, and Kanishka Kobbekaduwa align the ultrafast laser in the Department of Physics and Astronomy’s UPQD lab. Image Credit: Clemson University. This innovative method, based on solution-processed perovskite, is intended to transform a wide range of day-to-day objects, including photodetectors, LEDs, and solar cells for computer chips and smartphones. Solution-processed perovskites are advanced materials designed for solar cell panels used on rooftops, LEDs for daily-life lighting, and X-ray detectors for medical diagnosis. ....
E-Mail IMAGE: From left, Pan Adhikari, Lawrence Coleman and Kanishka Kobbekaduwa align the ultrafast laser in the Department of Physics and Astronomy s UPQD lab. view more Credit: Clemson University CLEMSON, South Carolina By using laser spectroscopy in a photophysics experiment, Clemson University researchers have broken new ground that could result in faster and cheaper energy to power electronics. This novel approach, using solution-processed perovskite, is intended to revolutionize a variety of everyday objects such as solar cells, LEDs, photodetectors for smart phones and computer chips. Solution-processed perovskite are the next generation materials for solar cell panels on rooftops, X-ray detectors for medical diagnosis, and LEDs for daily-life lighting. ....