Inexpensive Hole-Transporting Materials Derived from Tröger's Base Afford Efficient and Stable Perovskite Solar Cells.
Titas BraukylaRui XiaMaryte DaskevicieneTadas MalinauskasAlytis GruodisVygintas JankauskasZhaofu FeiCristina MomblonaCristina Roldán-CarmonaPaul J DysonVytautas GetautisMohammad Kahaj Khaja NazeeruddinPublished in: Angewandte Chemie (International ed. in English) (2019)
The synthesis of three enamine hole-transporting materials (HTMs) based on Tröger's base scaffold are reported. These compounds are obtained in a three-step facile synthesis from commercially available materials without the need of expensive catalysts, inert conditions or time-consuming purification steps. The best performing material, HTM3, demonstrated 18.62 % PCE in PSCs, rivaling spiro-OMeTAD in efficiency, and showing markedly superior long-term stability in non-encapsulated devices. In dopant-free PSCs, HTM3 outperformed spiro-OMeTAD by a factror of 1.6. The high glass-transition temperature (Tg =176 °C) of HTM3 also suggests promising perspectives in device applications.