In Silico Designing of Thieno[2,3-b]thiophene Core-Based Highly Conjugated, Fused-Ring, Near-Infrared Sensitive Non-fullerene Acceptors for Organic Solar Cells

作者
Saleh S. Alarfaji,Faiz Rasool,Bushra Iqbal,Ajaz Hussain,Riaz Hussain,Muhammad Akhlaq,Muhammad Fayyaz ur Rehman
出处
期刊:ACS omega [American Chemical Society]
卷期号:8 (5): 4767-4781 被引量:16
标识
DOI:10.1021/acsomega.2c06877
摘要

High Resolution Image Download MS PowerPoint Slide The performance of organic solar cells (OSCs) has been improving steadily over the last few years, owing to the optimization of device fabrication, fine-tuning of morphology, and thin-film processing. Thiophene core containing fused ring-type non-fullerene acceptors (NFAs) achieved significant proficiency for highly efficient OSCs. Quantum chemical computations are utilized herein with the motive of suggesting new NIR sensitive, highly efficient low-band gap materials for OSCs. A series of extended conjugated A−π–D−π–A architectured novel fused-ring NFAs (FUIC-1-FUIC-6) containing thieno[2,3- b ]thiophene-based donor core are proposed by substituting the end-capped units of synthesized molecule F10IC. Different properties including frontier molecular orbital analysis, density of states analysis, transition density matrix analysis, excitation energy, reorganizational energies of both holes (λ h ) and electrons (λ e ), and open-circuit voltage ( V oc ) were performed employing the density functional theory approach. Charge transfer analysis of the best-designed molecule with the donor complex was analyzed to comprehend the efficiency of novel constructed molecules (FUIC-1–FUIC-6) and compared with the reference. End-caped acceptor alteration induces the reduction of the energy gap between HOMO–LUMO (1.88 eV), tunes the energy levels, longer absorption in the visible and near-infrared regions, larger V oc, smaller reorganizational energies, and binding energy values in designed structures (FUIC-1–FUIC-6) in comparison to reference (FUIC). The designed molecules show the best agreement with the PTBT-T donor polymer blend and cause the highest charge from the HOMO to the LUMO orbital. Our findings predicted that thieno[2,3- b ] thiophene-based newly designed molecules would be efficient NFAs with outstanding photovoltaic characteristics and can be used in future applications of OSCs.

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