A Bi-Functional Lewis Base Additive For Microscopic Homogeneity In Perovskite Solar Cells
Additives do not need to be removed after crystal growth Remnant additive is advantageous for photovoltaic performance Easily added to solution before further processing 10% increase in PCE compared to no additive
Solar cells Optoelectronic devices Radiation detector LEDs Lasers Memory devices
Researchers led by Professor Yang Yang have developed a novel strategy to decrease heterogeneity in perovskite thin films by adding novel Lewis bases. The additives have been shown to improve microscale properties by enhancing crystallinity and decreasing grain boundaries and related defects. The bases can be easily added to the solution before further processing and do not need to be removed after crystal growth. Perovskite devices using this method demonstrated a 10% increase in PCE and the best performing device achieved a PCE of 18.6%.
State Of Development Devices containing Lewis bases have been fabricated and the optoelectronic properties have been tested. Devices containing Lewis base additives display 10% increase in power conversion efficiency compared to devices without the additives. Background Over the last decade, the certified power conversion efficiency (PCE) of perovskite solar cells has increased to 22.1%, establishing perovskites as viable alternatives to the widely used silicon solar cell. Further PCE improvement can be achieved by reducing the microscale heterogeneity of the films, but conventional techniques to improve crystal growth require additional steps or processing time. Therefore, novel scalable and efficient strategies that improve microscale properties will be important to further enhance the photovoltaic properties of perovskite solar cells. Related Materials Additional Technologies by these Inventors Tech ID/UC Case 29353/2018-020-0 Related Cases 2018-020-0
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