Fraunhofer ISE Sets Efficiency Record for Multicrystalline Solar Cells Made of Polysilicon from WACKER


German-based Fraunhofer Institute for Solar Energy Systems ISE has further improved the efficiency of multicrystalline solar cells, thereby setting a new record. The most recent measurements confirm an efficiency of 22.3 percent. Reference studies such as the International Technology Roadmap for Photovoltaic (ITRPV) only show efficiencies of around 19.5 percent for standard production solar cells. With this new record, multicrystalline cells are venturing into performance areas previously reserved for monocrystalline technologies. As a starting material, the researchers used hyperpure polysilicon from WACKER, the Munich-based chemical company.

Solar - Sep 25, 2017

In order to achieve the new efficiency record, important steps of the crystallization and cell manufacturing processes were optimized individually to the requirements of the multicrystalline starting material. Apart from an optimized plasma texture the researchers also used the so called Tunnel Oxide Passivated Contact technology (TOPCon) for rear side cell connectivity. Developed by Fraunhofer ISE, this process involves applying the electrical contacts to the passivated cell surface without patterning. This reduces electrical current losses and significantly enhances the efficiency of generating electricity.

“Optimizing all manufacturing steps from crystallization to the individual solar cell processes were key to our success”, emphasizes Martin Hermle, Head of the High Efficiency Solar Cells Department at Fraunhofer ISE. “Close collaboration between characterization, crystallization and solar cell technology experts made it possible to reduce loss mechanisms and establish an optimized process chain.”


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As a starting material for the record breaking cells, the researchers used hyperpure polycrystalline silicon from WACKER. The material is heated, melted and crystallized in a crucible. After cooling, the silicon ingot is cut into wafers that are, in turn, used to manufacture solar cells.

“We found out that cells made of hyperpure polysilicon from WACKER best fulfill the specific requirements of the solar cell structure”, stresses Stephan Riepe, Head of Group Silicon Crystallization and Epitaxy Materials at Fraunhofer ISE. “By systematically developing a high-performance material, we were able to achieve significantly higher cell efficiencies. In this process, the structure of only partially melted seed material is applied to the crystal. Our trials have shown that ultrapure granules from WACKER are particularly well-suited for this.”

The efficiency record is a key milestone for WACKER, too. “As a technology leader, we have been collaborating with the Fraunhofer ISE for many years now with the goal of promoting the development and characterization of solar cells and wafers for new, highly efficient solar installations,” says Karl Hesse, Head of WACKER POLYSILICON’s R&D unit. “The new record-breaking cells also contain one hundred percent polysilicon from WACKER.”

For the experiments, the chemical company provided granular silicon and other materials from its Burghausen plant. “The experiments at Fraunhofer ISE show that the multicrystalline technology based on high-quality polysilicon is nowhere near reaching its limits”, Karl Hesse notes. “It is possible to realize significant efficiency and cost-saving potentials even with established solar technologies based on multicrystalline silicon. The developments of the past few months make us confident that further increases are to be expected in the future, too.”

Source : Fraunhofer ISE

Published on Global Energy World: Sep 25, 2017

 
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