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Static and Dynamic Disorder of Charge Transfer States Probed by Optical Spectroscopy

Frank‐Julian Kahle, Alexander Rudnick, Stefan Wedler, Rishabh Saxena, Robin Ammenhäuser, Ullrich Scherf, Sergey Bagnich, H. Bäßler, Anna Köhler

2022Advanced Energy Materials20 citationsDOIOpen Access PDF

Abstract

Abstract Since the key role of charge transfers (CT) states has been identified for organic solar cells (OSCs), research into their properties is a timely topic. Conventionally, their absorption and emission spectra are described in terms of Marcus’ electron transfer theory. This is a single site approach with the essential parameter being the reorganization energy. Thus, it ignores ensemble effects, notably the role of static disorder that is inevitably present in a spin‐coated OSC film. Here time dependent photoluminescence spectroscopy is applied on blends of the polymeric donor MeLPPP with either the non‐fullerene acceptor SF‐PDI 2 or with PC 61 BM within a temperature range from 295 to 5 K. The authors monitor how initially excited singlet states are converted to emissive CT states. Concomitantly, emission from residual singlets on the acceptor is observed rather than hybrid CT‐states. The role of spectral diffusion in this process is discussed. From the temperature and time dependent linewidths of absorption, fluorescence, and CT emission, the static and dynamic contributions to the total disorder are inferred. In both blends, at 295 K, the contribution of static disorder is comparable to the dynamic disorder.

Topics & Concepts

Materials sciencePhotoluminescenceSinglet stateAcceptorExcited stateSpectroscopyAbsorption (acoustics)Chemical physicsAbsorption spectroscopyEmission spectrumMolecular physicsAtomic physicsSpectral lineOptoelectronicsCondensed matter physicsPhysicsOpticsQuantum mechanicsAstronomyComposite materialOrganic Electronics and PhotovoltaicsConducting polymers and applicationsOrganic Light-Emitting Diodes Research