Guiying Xu

TL;DR: High-performance planar heterojunction perovskite solar cells constructed on highly flexible and ultrathin silver-mesh/conducting polymer substrates are demonstrated, demonstrating excellent robustness against mechanical deformation and promising for future applications in flexible and bendable solar cells.

TL;DR: A comprehensive overview of recent research progresses and perspectives on the related materials and devices of the flexible and semitransparent OSCs is provided in this paper, where the highest power conversion efficiencies have reached over 10% of flexible and 7.7% with average visible transmittance of 37%.

TL;DR: In this paper, a gradient thermal annealing (GTA) method was used to control the growth of α-CsPbI2Br crystals and then a green anti-solvent (ATS) isopropanol was utilized to further optimize the morphology of the α-CPb2Br film.

TL;DR: An inorganic-perovskite/organic four-terminal tandem solar cell based on a semitransparent inorganic CsPbBr3 perovskITE solar cell (pero-SC) as the top cell and an OSC as bottom cell is constructed, avoiding the instability problem of UV light on the bottom OSC and leading to the highest reported PCE.

TL;DR: By addressing critical bottleneck issues relating to the FTEs in terms of optoelectronic and mechanical properties are comprehensively addressed, and the single-junction flexible OSCs based on this welded FTE show a high performance, achieving a record high PCE of 15.21%.