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Enhancement of Efficiency of Perovskite Solar Cells with Hole-Selective Layers of Rationally Designed Thiazolo[5,4-d]thiazole Derivatives

材料科学 三苯胺 钙钛矿(结构) 烷氧基 咔唑 噻唑 带隙 电子迁移率 分子内力 密度泛函理论 轨道能级差 光电子学 电离能 光化学 化学工程 电离 有机化学 计算化学 分子 化学 离子 工程类 烷基
作者
Asta Dabulienė,Zhong‐En Shi,Karolis Leitonas,Chien‐Yu Lung,Dmytro Volyniuk,Khushdeep Kaur,V.E. Matulis,Dmitry Lyakhov,Dominik L. Michels,Chih‐Ping Chen,Juozas V. Gražulevičius
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (23): 30239-30254 被引量:9
标识
DOI:10.1021/acsami.4c04105
摘要

We introduce thiazolo[5,4-d]thiazole (TT)-based derivatives featuring carbazole, phenothiazine, or triphenylamine donor units as hole-selective materials to enhance the performance of wide-bandgap perovskite solar cells (PSCs). The optoelectronic properties of the materials underwent thorough evaluation and were substantially fine-tuned through deliberate molecular design. Time-of-flight hole mobility TTs ranged from 4.33 × 10–5 to 1.63 × 10–3 cm2 V–1 s–1 (at an electric field of 1.6 × 105 V cm–1). Their ionization potentials ranged from −4.93 to −5.59 eV. Using density functional theory (DFT) calculations, it has been demonstrated that S0 → S1 transitions in TTs with carbazolyl or ditert-butyl-phenothiazinyl substituents are characterized by local excitation (LE). Mixed intramolecular charge transfer (ICT) and LE occurred for compounds containing ditert-butyl carbazolyl-, dimethoxy carbazolyl-, or alkoxy-substituted triphenylamino donor moieties. The selected derivatives of TT were used for the preparation of hole-selective layers (HSL) in PSC with the structure of glass/ITO/HSLs/Cs0.18FA0.82Pb(I0.8Br0.2)3/PEAI/PC61BM/BCP/Ag. The alkoxy-substituted triphenylamino containing TT (TTP-DPA) has been demonstrated to be an effective material for HSL. Its layer also functioned well as an interlayer, improving the surface of control HSL_2PACz (i.e., reducing the surface energy of 2PACz from 66.9 to 52.4 mN m–1), thus enabling precise control over perovskite growth energy level alignment and carrier extraction/transportation at the hole-selecting contact of PSCs. 2PACz/TTP-DPA-based devices showed an optimized performance of 19.1 and 37.0% under 1-sun and 3000 K LED (1000 lx) illuminations, respectively. These values represent improvements over those achieved by bare 2PACz-based devices, which attained efficiencies of 17.4 and 32.2%, respectively. These findings highlight the promising potential of TTs for the enhancement of the efficiencies of PSCs.

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