Recent advancements in solar cell technology have been reported, focusing on the development and efficiency of perovskite solar cells. A groundbreaking efficiency was achieved with thin roll-to-roll printed solar cells. Additionally, a vacuum process involving perovskite solar cells may offer a quicker path to commercialization, as suggested by research at KIT Karlsruhe. A team led by Zhou et al. utilized a functional molecule to inhibit tin oxidation, achieving over 27% efficiency in monolithic all-perovskite tandem solar cells. Further studies by Alvin Y. Zhou and colleagues at HKUST revealed that healing intragrain nanoclusters improves the performance of perovskite solar cells. Moreover, research from Hebei University of Science and Technology by Xinge Guo, Xingtao An, and their team focused on building (001) oriented FAPbI3 films for high-performing perovskite solar cells.
Check out 'Building (001) oriented FAPbI3 films for high-performing perovskite solar cells' New from Xinge Guo, Xingtao An and co. at Hebei University of Science and Technology. https://t.co/fkUiqqyB5n
Zhou et al. employ a functional molecule to inhibit tin oxidation, realizing #monolithic all-#perovskite #tandem #solarcells with certified #efficiency over 27% #Devices #GettingApplied https://t.co/YhEkpjzfF4
.@Alvin_Y_Zhou @HKUST et al. report electron microscopy studies revealing that the healing of intragrain #nanoclusters improves #perovskite #solarcells #Devices #GettingApplied https://t.co/zUeaQ31Pqp https://t.co/yYQ2mULIpf
Perovskite #solarCells: Vacuum process may offer a short track to commercialization @KITKarlsruhe https://t.co/EcuKTxeVmk
Scientists Achieve Groundbreaking Efficiency with Thin Roll-to-Roll Printed Solar Cells. https://t.co/Yhk1is0gHj