Shukong So scite author profile

Recent advances in material design for organic solar cells (OSCs) are primarily focused on developing near-infrared nonfullerene acceptors, typically A-DA′D-A type acceptors (where A abbreviates an electron-withdrawing moiety and D, an electron-donor moiety), to achieve high external quantum efficiency while maintaining low voltage loss. However, the charge transport is still constrained by unfavorable molecular conformations, resulting in high energetic disorder and limiting the device performance. Here, a facile design strategy is reported by introducing the "wing" (alkyl chains) at the terminal of the DA′D central core of the A-DA′D-A type acceptor to achieve a favorable and ordered molecular orientation and therefore facilitate charge carrier transport. Benefitting from the reduced disorder, the electron mobilities could be significantly enhanced for the "wing"-containing molecules. By carefully changing the length of alkyl chains, the mobility of acceptor has been tuned to match with that of donor, leading to a minimized charge imbalance factor and a high fill factor (FF). We further provide useful design strategies for highly efficient OSCs with high FF.

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Extrinsic Electron Traps in Tris(8-hydroxyquinoline) Aluminium

Fong

Lun

2002

Jpn. J. Appl. Phys.

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Angular-dependent photoemission studies of indium tin oxide surfaces

Song

Cao

2001

Appl Phys A

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Multiple Temporal‐Scale Photocarrier Dynamics Induced by Synergistic Effects of Fluorination and Chlorination in Highly Efficient Nonfullerene Organic Solar Cells

et al. 2020

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Fluorination and chlorination have yielded a novel class of materials and achieved tremendous progress in enhancing photovoltaic efficiency in organic solar cells (OSCs). However, their effects on photocarrier dynamics remain elusive in these organic photovoltaic systems. Herein, a comprehensive study on the underlying mechanisms is conducted based on a 2 × 2 photovoltaic matrix, consisting of PBDB‐T, PBDB‐T‐2Cl, ITIC, and IT4F. Chlorination of donors enhances exciton migration and relaxation rates and promotes the extraction of polarons. The more efficient charge transfer and a larger proportion of long‐lived polarons are observed in fluorine‐containing acceptor‐based systems, which are in favor of charge generation in the actual devices. According to the enlarged dielectric constant in the PBDB‐T‐2Cl:IT4F blend, the improved exciton delocalization, the decreased exciton binding energy, and Coulomb capture radius are obtained relative to other three binary systems, which can increase charge separation efficiency and reduce the probability of bimolecular recombination. The simultaneous fluorination and chlorination can optimize molecular packing and nanoscale phase separation, facilitating effective exciton diffusion, exciton dissociation, and charge transport. These results highlight the important role of fluorination and chlorination on these fundamental mechanisms, possibly resulting in some new molecular design principles toward high‐performance OSCs.

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Dynamic SIMS characterization of interface structure of Ag/Alq₃/NPB/ITO model devices

Song

et al. 2001

Surface & Interface Analysis

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In this study, we first profiled model organic light-emitting diodes (OLEDs) with the structure Ag/tris(8-hydroxyquinoline) aluminium .Alq 3 //N, N -diphenyl-N, N -bis[1-naphthyl-(1,1 -biphenyl]-4,4 -diamine (NPB)/indium tin oxide (ITO) using dynamic SIMS. The element distribution across the multilayer and the dynamic SIMS spectra at different regions were obtained. It was shown that dynamic SIMS is a powerful tool in profiling OLEDs. Clear diffusion of Ag into the Alq 3 layer was observed. The experimental results also revealed that a distinct interface for Alq 3 /NPB can be obtained using dynamic SIMS.

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Shukong So

Understanding energetic disorder in electron-deficient-core-based non-fullerene solar cells

Extrinsic Electron Traps in Tris(8-hydroxyquinoline) Aluminium

Angular-dependent photoemission studies of indium tin oxide surfaces

Multiple Temporal‐Scale Photocarrier Dynamics Induced by Synergistic Effects of Fluorination and Chlorination in Highly Efficient Nonfullerene Organic Solar Cells

Dynamic SIMS characterization of interface structure of Ag/Alq₃/NPB/ITO model devices

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Shukong So

Understanding energetic disorder in electron-deficient-core-based non-fullerene solar cells

Extrinsic Electron Traps in Tris(8-hydroxyquinoline) Aluminium

Angular-dependent photoemission studies of indium tin oxide surfaces

Multiple Temporal‐Scale Photocarrier Dynamics Induced by Synergistic Effects of Fluorination and Chlorination in Highly Efficient Nonfullerene Organic Solar Cells

Dynamic SIMS characterization of interface structure of Ag/Alq3/NPB/ITO model devices

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Dynamic SIMS characterization of interface structure of Ag/Alq₃/NPB/ITO model devices