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Computational Discovery of Intermolecular Singlet Fission Materials Using Many-Body Perturbation Theory

Xiaopeng Wang, Siyu Gao, Yiqun Luo, Xingyu Liu, Rithwik Tom, Kaiji Zhao, Vincent Chang, Noa Marom

2024The Journal of Physical Chemistry C11 citationsDOIOpen Access PDF

Abstract

Intermolecular singlet fission (SF) is the conversion of a photogenerated singlet exciton into two triplet excitons residing on different molecules. SF has the potential to enhance the conversion efficiency of solar cells by harvesting two charge carriers from one high-energy photon, whose surplus energy would otherwise be lost to heat. The development of commercial SF-augmented modules is hindered by the limited selection of molecular crystals that exhibit intermolecular SF in the solid state. Computational exploration may accelerate the discovery of new SF materials. The GW approximation and Bethe-Salpeter equation (GW+BSE) within the framework of many-body perturbation theory is the current state-of-the-art method for calculating the excited-state properties of molecular crystals with periodic boundary conditions. In this Review, we discuss the usage of GW+BSE to assess candidate SF materials as well as its combination with low-cost physical or machine learned models in materials discovery workflows. We demonstrate three successful strategies for the discovery of new SF materials: (i) functionalization of known materials to tune their properties, (ii) finding potential polymorphs with improved crystal packing, and (iii) exploring new classes of materials. In addition, three new candidate SF materials are proposed here, which have not been published previously.

Topics & Concepts

Singlet fissionIntermolecular forceExcited stateExcitonSinglet stateChemical physicsSolar energy conversionPerturbation theory (quantum mechanics)MoleculeMaterials scienceChemistryNanotechnologyPhysicsAtomic physicsQuantum mechanicsSolar energyBiologyEcologyPerovskite Materials and ApplicationsQuantum Dots Synthesis And Properties2D Materials and Applications
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