Efficient All‐Polymer Photomultiplication‐Type Organic Photodetectors with Prolonged Crystallization Process

[1]  Jing Ma,et al.  Desirable Uniformity and Reproducibility of Electron Transport in Single‐Component Organic Solar Cells , 2023, Advanced science.

[2]  P. Müller‐Buschbaum,et al.  Control of the Crystallization and Phase Separation Kinetics in Sequential Blade‐Coated Organic Solar Cells by Optimizing the Upper Layer Processing Solvent , 2023, Advanced Energy Materials.

[3]  Yajie Zhang,et al.  Recent progress on organic near‐infrared photodetectors: mechanism, devices, and applications , 2022, Chinese Journal of Chemistry.

[4]  W. Ma,et al.  High‐Performance Green Thick‐Film Ternary Organic Solar Cells Enabled by Crystallinity Regulation , 2022, Advanced Functional Materials.

[5]  Zhihao Chen,et al.  Vertical-Phase-Locking Effect in Efficient and Stable All-Polymer-Hosted Solar Cells , 2022, ACS Energy Letters.

[6]  Jian-Yu Guan,et al.  Improving the Molecular Packing Order and Vertical Phase Separation of the P3HT:O-IDTBR Blend by Extending the Crystallization Period of O-IDTBR. , 2022, ACS applied materials & interfaces.

[7]  Yun‐Hi Kim,et al.  High‐Performance and High‐Stability all‐Polymer Photomultiplication‐Type Organic Photodiode Using an NDI‐Based Polymer Acceptor with Precisely Controlled Backbone Planarity , 2022, Advanced Functional Materials.

[8]  W. Qin,et al.  Mechanoresponsive Spin via Spin-Lattice Coupling in Organic Cocrystals. , 2022, Nano letters.

[9]  Shijia Gao,et al.  High-Performance All-Polymer Photodetectors Enabled by New Random Terpolymer Acceptor with Fine-Tuned Molecular Weight. , 2022, ACS applied materials & interfaces.

[10]  H. Yao,et al.  Design of ultranarrow-bandgap acceptors for efficient organic photovoltaic cells and highly sensitive organic photodetectors , 2022, Journal of Energy Chemistry.

[11]  Meilin Liu,et al.  Highly sensitive photomultiplication type polymer photodetectors by manipulating interfacial trapped electron density , 2022, Chemical Engineering Journal.

[12]  Rationalizing charge carrier transport in ternary organic solar cells , 2022, Applied Physics Letters.

[13]  K. Leo,et al.  Photomultiplication‐Type Organic Photodetectors for Near‐Infrared Sensing with High and Bias‐Independent Specific Detectivity , 2022, Advanced science.

[14]  P. Blom,et al.  Organic Semiconductor/Insulator Blends for Elastic Field‐Effect Transistors and Sensors , 2021, Advanced Functional Materials.

[15]  Junwei Liu,et al.  Challenges and recent advances in photodiodes-based organic photodetectors , 2021, Materials Today.

[16]  Zhi-Yan Chen,et al.  Impeding the charge recombination through modifying the electron–phonon coupling in organic charge transfer complexes , 2021 .

[17]  Fujun Zhang,et al.  Highly Sensitive Narrowband Photomultiplication‐Type Organic Photodetectors Prepared by Transfer‐Printed Technology , 2021, Advanced Functional Materials.

[18]  K. Leo,et al.  Enhancing sub-bandgap external quantum efficiency by photomultiplication for narrowband organic near-infrared photodetectors , 2021, Nature Communications.

[19]  Sungjee Kim,et al.  Photomultiplication‐Type Organic Photodetectors with Fast Response Enabled by the Controlled Charge Trapping Dynamics of Quantum Dot Interlayer , 2021, Advanced Functional Materials.

[20]  X. Gu,et al.  High-Performance All-Polymer Solar Cells and Photodetectors Enabled by a High-Mobility n-Type Polymer and Optimized Bulk-Heterojunction Morphology , 2021, Chemistry of Materials.

[21]  Meilin Liu,et al.  Ultra-Narrow-Band NIR Photomultiplication Organic Photodetectors Based on Charge Injection Narrowing. , 2021, The journal of physical chemistry letters.

[22]  Hang Yin,et al.  High-Efficiency Thickness-Insensitive Organic Solar Cells with an Insulating Polymer. , 2021, ACS applied materials & interfaces.

[23]  B. K. Boroujeni,et al.  Reverse dark current in organic photodetectors and the major role of traps as source of noise , 2021, Nature Communications.

[24]  M. Zhang,et al.  The coupling and competition of crystallization and phase separation, correlating thermodynamics and kinetics in OPV morphology and performances , 2021, Nature communications.

[25]  X. Hao,et al.  Recent Progress of Organic Solar Cells with Insulating Polymers , 2020, Solar RRL.

[26]  Fujun Zhang,et al.  Recent Progress on Broadband Organic Photodetectors and their Applications , 2020, Laser & Photonics Reviews.

[27]  F. Peng,et al.  High-Detectivity Non-Fullerene Organic Photodetectors Enabled by a Cross-Linkable Electron Blocking Layer. , 2020, ACS applied materials & interfaces.

[28]  T. Russell,et al.  Manipulating Film Morphology of All‐Polymer Solar Cells by Incorporating Polymer Compatibilizer , 2020, Solar RRL.

[29]  Yan-Qing Li,et al.  Recent Progress in Organic Photodetectors and their Applications , 2020, Advanced science.

[30]  Fujun Zhang,et al.  Photomultiplication Type Broad Response Organic Photodetectors with One Absorber Layer and One Multiplication Layer. , 2019, The journal of physical chemistry letters.

[31]  Thuc‐Quyen Nguyen,et al.  A High‐Performance Solution‐Processed Organic Photodetector for Near‐Infrared Sensing , 2019, Advanced materials.

[32]  Hang Yin,et al.  Donor Polymer Can Assist Electron Transport in Bulk Heterojunction Blends with Small Energetic Offsets , 2019, Advanced materials.

[33]  X. Hao,et al.  Effective Exciton Dissociation and Reduced Charge Recombination in Thick‐Film Organic Solar Cells via Incorporation of Insulating Polypropylene , 2019, Solar RRL.

[34]  Xinhui Lu,et al.  Morphology of organic photovoltaic non-fullerene acceptors investigated by grazing incidence X-ray scattering techniques , 2019, Materials Today Nano.

[35]  Yanchun Han,et al.  Separating Crystallization Process of P3HT and O‐IDTBR to Construct Highly Crystalline Interpenetrating Network with Optimized Vertical Phase Separation , 2019, Advanced Functional Materials.

[36]  Fujun Zhang,et al.  Recent Progress on Photomultiplication Type Organic Photodetectors , 2018, Laser & Photonics Reviews.

[37]  T. P. Gujar,et al.  Effect of Thermal and Structural Disorder on the Electronic Structure of Hybrid Perovskite Semiconductor CH3NH3PbI3. , 2016, The journal of physical chemistry letters.

[38]  Feng Gao,et al.  Fullerene‐Free Polymer Solar Cells with over 11% Efficiency and Excellent Thermal Stability , 2016, Advanced materials.

[39]  P. Blom,et al.  Elimination of charge carrier trapping in diluted semiconductors. , 2016, Nature materials.

[40]  Fujun Zhang,et al.  Achieving EQE of 16,700% in P3HT:PC71BM based photodetectors by trap-assisted photomultiplication , 2015, Scientific Reports.

[41]  Fujun Zhang,et al.  Trap-assisted photomultiplication polymer photodetectors obtaining an external quantum efficiency of 37,500%. , 2015, ACS applied materials & interfaces.

[42]  Wallace W. H. Wong,et al.  A molecular nematic liquid crystalline material for high-performance organic photovoltaics , 2015, Nature Communications.

[43]  P. Schilinsky,et al.  Investigation of the s-shape caused by the hole selective layer in bulk heterojunction solar cells , 2014 .

[44]  G. Bazan,et al.  High‐Molecular‐Weight Insulating Polymers Can Improve the Performance of Molecular Solar Cells , 2014, Advanced materials.

[45]  Thomas Kirchartz,et al.  Sensitivity of the Mott–Schottky Analysis in Organic Solar Cells , 2012 .

[46]  Fujun Zhang,et al.  Employing liquid crystal material as regulator to enhance performance of photomultiplication type polymer photodetectors , 2022 .

[47]  Yiwang Chen,et al.  NIR Photodetectors with Highly Efficient Detectivity Enabled by 2D Fluorinated Dithienopicenocarbazole‐Based Ultra‐Narrow Bandgap Acceptors , 2022 .