Researchers Create 68.9%-efficient PV Cell for Laser energy Transmission By Soumya Duggal/ Updated On Thu, Jul 1st, 2021 Highlights : In addition to the classical applications for solar cells on roofs and open spaces, photovoltaic devices can also be used with laser light for efficient power transmission. Researchers at Germany’s Fraunhofer ISE claim to have achieved a 68.9% conversion efficiency rate for a III-V solar cell that can be used in laser energy transmissions systems. At the recently held 48th IEEE Photovoltaic Specialists Conference, researchers from the Fraunhofer Institute for Solar Energy Systems ISE presented their achievement of a record conversion efficiency of 68.9% for a photovoltaic cell under monochromatic laser light. The scientists at Fraunhofer ISE claimed the success, explaining that it was made possible with a special thin film technology in which the solar cell layers were first grown on a gallium arsenide substrate which was then subsequently removed. A conductive, highly reflective mirror was applied to the back surface of the remaining semiconductor structure, which was only a few micrometers thick. This was their process: Photovoltaic cells convert light into electricity. The incoming light is absorbed in a cell structure, made of gallium arsenide semiconductor material, for example. The absorbed light sets positive and negative charges free, which are in turn conducted to the front and back cell contacts, generating electricity. This “photovoltaic effect” is particularly efficient when the energy of the incident light lies slightly above the so-called bandgap energy inherent to the semiconductor material. Thus, very high efficiencies are theoretically possible when a monochromatic laser as light source is matched with a suitable semiconductor compound material. Voltalia Wins a Mixed Photovoltaic and Battery Storage Power Plant in French Guiana Also Read In this new form of energy transfer, called power by light, the laser energy is delivered either through the air or via an optical fiber to a photovoltaic cell whose properties match the power and the wavelength of the monochromatic laser light. Compared to conventional power transmission via copper wires, power by light systems are especially beneficial for applications which require a galvanically isolated power supply, lightning or explosion protection, electromagnetic compatibility, or completely wireless power transmission, for example. “This thin film approach has two distinct advantages for the efficiency,” explains the physicist Dr. Henning Helmers, head of the Fraunhofer ISE research team. “First of all, photons are trapped in the cell and the absorption is maximized for photon energies close to the band gap, which simultaneously minimizes thermalization and transmission losses, making the cell more efficient. Secondly, the photons additionally generated internally by radiative recombination become trapped and effectively recycled. This extends the effective carrier lifetime, thus additionally increasing the voltage.” The research group investigated thin film photovoltaic cells with back-surface reflectors made of gold and an optically optimized combination of ceramic and silver, with the latter showing the best results. An n-GaAs/p-AlGaAs heterostructure was developed as absorber, which shows particularly low charge carrier losses due to recombination. German Researchers Develop 18% Efficient Large-area Perovskite Module Also Read “This is an impressive result that shows the potential of photovoltaics for industrial applications beyond solar power generation,” says a delighted Prof. Andreas Bett, institute director of Fraunhofer ISE, Germany. Optical power transmission has manifold applications. Examples are the structural monitoring of wind turbines; the monitoring of high-voltage lines, fuel sensors in aircraft tanks, or passive optical networks; the optical supply of implants from outside the body; etc. Tags: 48th IEEE Photovoltaic Specialists Conference, Andreas Bett, Dr. Henning Helmers, Fraunhofer Institute for Solar Energy Systems ISE, laser energy transmissions systems, photovoltaic cell