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Electrostatic Potential Design of Solid Additives for Enhanced Molecular Order of Polymer Donor in Efficient Organic Solar Cells

Zhenghong Chen, Chuanhang Guo, Liang Wang, Chen Chen, Jinlong Cai, Chenhao Liu, Zirui Gan, Yuandong Sun, Jinpeng Zhou, Jing Zhou, Dan Liu, Tao Wang, Wei Li

2024Small13 citationsDOI

Abstract

Polymeric semiconducting materials struggle to achieve fast charge mobility due to low structural order. In this work, five 1H-indene-1,3(2H)dione-benzene structured halogenated solid additives namely INB-5F, INB-3F, INB-1F, INB-1Cl, and INB-1Br with gradually varied electrostatic potential are designed and utilized to regulate the structural order of polymer donor PM6. Molecular dynamics simulations demonstrate that although the dione unit of these additives tends to adsorb on the backbone of PM6, the reduced electrostatic potential of the halogen-substituted benzene can shift the benzene interacting site from alkyl side chains to the conjugated backbone of PM6, not only leading to enhanced π-π stacking in out-of-plane but also arising new π-π stacking in in-plane together with the appearance of multiple backbone stacking in out-of-plane, consequent to the co-existence of face-on and edge-on molecular orientations. This molecular packing transformation further translates to enhanced charge transport and suppressed carrier recombination in their photovoltaics, with a maximum power conversion efficiency of 19.4% received in PM6/L8-BO layer-by-layer deposited organic solar cells.

Topics & Concepts

StackingOrganic solar cellSide chainMaterials sciencePolymerPolymer solar cellBenzeneChemical engineeringAlkylEnergy conversion efficiencyConjugated systemOrganic semiconductorPhotoactive layerChemical physicsChemistryOrganic chemistryOptoelectronicsComposite materialEngineeringOrganic Electronics and PhotovoltaicsConducting polymers and applicationsThin-Film Transistor Technologies
Electrostatic Potential Design of Solid Additives for Enhanced Molecular Order of Polymer Donor in Efficient Organic Solar Cells | Litcius