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Constructing molecular bridge for high-efficiency and stable perovskite solar cells based on P3HT

Dongdong Xu, Zhiming Gong, Yue Jiang, Yancong Feng, Zhen Wang, Xingsen Gao, Xubing Lu, Guofu Zhou, Jun‐Ming Liu, Jinwei Gao

2022Nature Communications101 citationsDOIOpen Access PDF

Abstract

Abstract Poly (3-hexylthiophene) (P3HT) is one of the most attractive hole transport materials (HTMs) for the pursuit of stable, low-cost, and high-efficiency perovskite solar cells (PSCs). However, the poor contact and the severe recombination at P3HT/perovskite interface lead to a low power conversion efficiency (PCE). Thus, we construct a molecular bridge, 2-((7-(4-(bis(4-methoxyphenyl)amino)phenyl)−10-(2-(2-ethoxyethoxy)ethyl)−10H-phenoxazin-3-yl)methylene)malononitrile (MDN), whose malononitrile group can anchor the perovskite surface while the triphenylamine group can form π−π stacking with P3HT, to form a charge transport channel. In addition, MDN is also found effectively passivate the defects and reduce the recombination to a large extent. Finally, a PCE of 22.87% has been achieved with MDN-doped P3HT (M-P3HT) as HTM, much higher than the efficiency of PSCs with pristine P3HT. Furthermore, MDN gives the un-encapsulated device enhanced long-term stability that 92% of its initial efficiency maintain even after two months of aging at 75% relative humidity (RH) follow by one month of aging at 85% RH in the atmosphere, and the PCE does not change after operating at the maximum power point (MPP) under 1 sun illumination (~45 o C in N 2 ) over 500 hours.

Topics & Concepts

Energy conversion efficiencyPerovskite (structure)TriphenylamineMaterials scienceStackingMalononitrilePassivationChemical engineeringOptoelectronicsPhotochemistryNanotechnologyChemistryCrystallographyCatalysisOrganic chemistryLayer (electronics)EngineeringPerovskite Materials and ApplicationsConducting polymers and applicationsOrganic Light-Emitting Diodes Research
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