A crosslinked fullerene matrix doped with an ionic fullerene as a cathodic buffer layer toward high-performance and thermally stable polymer and organic metallohalide perovskite solar cells
作者: Yi-Hsiang Chao , Yi-You Huang , Jen-Yun Chang , Shih-Hao Peng , Wei-Yi Tu
DOI: 10.1039/C5TA05057J
关键词: Thermal stability 、 Dopant 、 Materials science 、 Heterojunction 、 Perovskite (structure) 、 Organic chemistry 、 Polymer solar cell 、 Layer (electronics) 、 Chemical engineering 、 Ionic bonding 、 Fullerene
摘要: In this study, we developed a new cathodic buffer layer consisting of cross-linked [6,6]-phenyl-C61-butyric styryl dendron ester (C-PCBSD) matrix and an ionic FPI dopant. The incorporation can improve the electron mobility via anion induced charge transfer (AIET) mechanism, while maintaining solvent-resistant properties crosslinked layer. ZnO combined with C-PCBSD/FPI effectively universally performance bulk-heterojunction polymer solar cells (BHJPSCs), planar heterojunction (PHJPSCs), organic metallohalide perovskite (OMPSCs). Furthermore, insertion thermal stability device by preventing residual moisture in from diffusing into CH3NH3PbI3 OMPSCs.
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