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Abstract
Singlet fission photovoltaics enable the extraction of two electron-hole pairs from each higher-energy photon while leveraging a mature technology such as crystalline silicon (c-Si) as the underlying cell. Significant steps have been made in the development of singlet fission silicon photovoltaics, but all examples reported to date use tetracene as the singlet fission material. Tetracene is photochemically unstable and therefore unsuitable for commercial applications. Here we demonstrate singlet fission-derived triplet exciton transfer to c-Si from photochemically stable dipyrrolonaphthyridinedione (DPND) derivatives, with a thin layer of tin oxide as the passivation layer. An overlayer of poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) was found to improve interface passivation further. These observations demonstrate that singlet fission photovoltaic devices can be made using stable and commercially viable materials.
Supplementary materials
Title
Supporting Information
Description
Further details on the synthesis of DPND-n and fabrication of uncontacted devices; complementary
steady-state and time-resolved spectroscopic data; and experimental details for modMPL and
imaging data presented in the main text. Crystallographic data for DPND-2 and DPND-7 have been
deposited at the Cambridge Crystallographic Data Centre (CCDC) under 2465278 and 2465279 respectively.
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