QE-R

ACS Appl. Mater.: Research teams of UNIST Changduk Yang & Seong-Jun Yoon Propose to Improve Thermal Stability by Controlling Polymer Side Chain Conformations via Fluorine Atom Positioning PV 海外Conformational Locking Control of 2D Outer Side Chains

ACS Appl. Mater.: Research teams of UNIST Changduk Yang & Seong-Jun Yoon Propose to Improve Thermal Stability by Controlling Polymer Side Chain Conformations via Fluorine Atom Positioning

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ACS Appl. Mater.: Research teams of UNIST Changduk Yang & Seong-Jun Yoon Propose to Improve Thermal Stability by Controlling Polymer Side Chain Conformations via Fluorine Atom Positioning Enlitech- Selection of Top Teams! Highlights Thermal stability is vital for commercializing nonfullerene acceptor-based organic solar cells. Two new isomeric NFAs were introduced: 4FY and 2FY, showcasing distinct characteristics. …

ACS Appl. Mater.: Research teams of UNIST Changduk Yang & Seong-Jun Yoon Propose to Improve Thermal Stability by Controlling Polymer Side Chain Conformations via Fluorine Atom Positioning Read More »

Nat. Commun.: Research teams of PolyU Gang Li & UCLA Yang Yang Employ Innovative Strategy for High Efficiency (19.31%) and Reduce Non-radiative Recombination Loss in Binary Organic Solar Cells 譚海仁團隊最新研究 鈣鈦礦界面結構優化 9

Nat. Commun.: Research teams of PolyU Gang Li & UCLA Yang Yang Employ Innovative Strategy for High Efficiency (19.31%) and Reduce Non-radiative Recombination Loss in Binary Organic Solar Cells

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Nat. Commun.: Research teams of PolyU Gang Li & UCLA Yang Yang Employ Innovative Strategy for High Efficiency (19.31%) and Reduce Non-radiative Recombination Loss in Binary Organic Solar Cells Enlitech- Selection of Top Teams! Highlights Research teams led by Gang Li from Hong Kong Polytechnic University and Yang Yang from UCLA have developed a non-monotonic …

Nat. Commun.: Research teams of PolyU Gang Li & UCLA Yang Yang Employ Innovative Strategy for High Efficiency (19.31%) and Reduce Non-radiative Recombination Loss in Binary Organic Solar Cells Read More »

Chen Qi in Joule: Topological Chemical Assembly Minimizes Lattice Heterogeneity in Polycrystalline Halide Perovskites Chen Qi in Joule

Chen Qi in Joule: Topological Chemical Assembly Minimizes Lattice Heterogeneity in Polycrystalline Halide Perovskites

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Chen Qi in Joule: Topological Chemical Assembly Minimizes Lattice Heterogeneity in Polycrystalline Halide Perovskites Enlitech- Selection of Top Teams! Solution-processed polycrystalline mixed halide perovskite solar cells have already achieved excellent power conversion efficiencies. However, severe thin film heterogeneity exists ubiquitously across multiple length scales, including composition, lattice structure, and defects, which significantly impacts device lifetime. …

Chen Qi in Joule: Topological Chemical Assembly Minimizes Lattice Heterogeneity in Polycrystalline Halide Perovskites Read More »

《Advanced Energy Materials(IF>29.698 )》Huaqiao University College of Materials Science and Engineering Zhanhua Wei Professor Team - Non-halogen surface passivating agent inhibits calcium titanate solar cell interface defects, high efficiency 24.75% and stability are realized 《Advanced Energy Materials》Huaiian Overseas Chinese University Materials Science

《Advanced Energy Materials(IF>29.698 )》Huaqiao University College of Materials Science and Engineering Zhanhua Wei Professor Team – Non-halogen surface passivating agent inhibits calcium titanate solar cell interface defects, high efficiency 24.75% and stability are realized

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《Advanced Energy Materials(IF>29.698 )》Huaqiao University College of Materials Science and Engineering Zhanhua Wei Professor Team – Non-halogen surface passivating agent inhibits calcium titanate solar cell interface defects, high efficiency 24.75% and stability are realized Enlitech- Selection of Top Teams! Highlights The research team synthesized the non-halide ionic salt 1-naphthylmethylammonium formate (NMACOOH) to inhibit the formation …

《Advanced Energy Materials(IF>29.698 )》Huaqiao University College of Materials Science and Engineering Zhanhua Wei Professor Team – Non-halogen surface passivating agent inhibits calcium titanate solar cell interface defects, high efficiency 24.75% and stability are realized Read More »

《Advanced Materials》Professor Zhan'ao Tan's team from Beijing University of Chemical Technology used Valinomycin (VM) to manage interfacial charged defects and achieved 24.06% efficient perovskite solar cells with enhanced efficiency and stability in Advanced Materials. 《Advanced MaterialsIF32.086》Managing Interfacial Charged Defects with Valinomycin to Achieve 24.06 Efficient Perovskite Solar Cells with Enhanced Efficiency and Stability by Zhanao Tans Team

《Advanced Materials》Professor Zhan’ao Tan’s team from Beijing University of Chemical Technology used Valinomycin (VM) to manage interfacial charged defects and achieved 24.06% efficient perovskite solar cells with enhanced efficiency and stability in Advanced Materials.

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《Advanced Materials》Professor Zhan’ao Tan’s team from Beijing University of Chemical Technology used Valinomycin (VM) to manage interfacial charged defects and achieved 24.06% efficient perovskite solar cells with enhanced efficiency and stability in Advanced Materials. Enlitech- Selection of Top Teams! Highlights The researchers inserted valinomycin (VM) at the interface between perovskite and electron transport layer as …

《Advanced Materials》Professor Zhan’ao Tan’s team from Beijing University of Chemical Technology used Valinomycin (VM) to manage interfacial charged defects and achieved 24.06% efficient perovskite solar cells with enhanced efficiency and stability in Advanced Materials. Read More »

《Advanced Energy Materials(IF>29.698)》Cadmium Alloying Effectively Suppresses Defects and Improves CZTS Solar Cell Efficiency to 12.3% Cadmium Alloying Effectively Suppresses Defects and Improves CZTS Solar Cell Efficiency to 12.3

《Advanced Energy Materials(IF>29.698)》Cadmium Alloying Effectively Suppresses Defects and Improves CZTS Solar Cell Efficiency to 12.3%

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Advanced Energy Materials(IF>29.698)》Cadmium Alloying Effectively Suppresses Defects and Improves CZTS Solar Cell Efficiency to 12.3% Enlitech- Selection of Top Teams! Highlights Cadmium (Cd) alloying can effectively suppress defects in CZTS solar cells and improve conversion efficiency. The efficiency of CZTS solar cells with 35% cadmium content can reach 12.3%, an increase of over 70% compared …

《Advanced Energy Materials(IF>29.698)》Cadmium Alloying Effectively Suppresses Defects and Improves CZTS Solar Cell Efficiency to 12.3% Read More »

Angew:SNNU and CAS join hands to cooperate with Prof. Wanchun Xiang and others, Molecular Bridge on Buried Interface for Efficient and Stable Perovskite Solar Cells from 22.6% to 24.7%. Molecular Bridge2

Angew:SNNU and CAS join hands to cooperate with Prof. Wanchun Xiang and others, Molecular Bridge on Buried Interface for Efficient and Stable Perovskite Solar Cells from 22.6% to 24.7%.

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Angew:SNNU and CAS join hands to cooperate with Prof. Wanchun Xiang and others, Molecular Bridge on Buried Interface for Efficient and Stable Perovskite Solar Cells from 22.6% to 24.7%. Enlitech- Selection of Top Teams! Recently, Shaanxi Normal University’s Wan Chun team utilized the testing equipment of Light Flame Technology Company to develop perovskite solar cells …

Angew:SNNU and CAS join hands to cooperate with Prof. Wanchun Xiang and others, Molecular Bridge on Buried Interface for Efficient and Stable Perovskite Solar Cells from 22.6% to 24.7%. Read More »

Two leading experts from NIST and Ulsan National Institute of Science and Technology (UNIST) in Korea, Changduk Yang and Seunglok Lee, have collaborated to achieve a remarkable power conversion efficiency (PCE) of 18.47% in organic solar cells. UNIST韓國蔚山科學技術院兩強Changduk Yang與Seunglok Lee聯手,締造有機太陽能電池PCE18.47

Two leading experts from NIST and Ulsan National Institute of Science and Technology (UNIST) in Korea, Changduk Yang and Seunglok Lee, have collaborated to achieve a remarkable power conversion efficiency (PCE) of 18.47% in organic solar cells.

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Two leading experts from NIST and Ulsan National Institute of Science and Technology (UNIST) in Korea, Changduk Yang and Seunglok Lee, have collaborated to achieve a remarkable power conversion efficiency (PCE) of 18.47% in organic solar cells. Enlitech- Selection of Top Teams! A research team led by famous scholars Changduk Yang and Seong-Jun Yoon from …

Two leading experts from NIST and Ulsan National Institute of Science and Technology (UNIST) in Korea, Changduk Yang and Seunglok Lee, have collaborated to achieve a remarkable power conversion efficiency (PCE) of 18.47% in organic solar cells. Read More »

[Advanced Functional Materials (IF>19.924)] The research team of Professor Changduk Yang from UNIST, South Korea developed organic solar cells with excellent stability and 18.2% efficiency

[Advanced Functional Materials (IF>19.924)] The research team of Professor Changduk Yang from UNIST, South Korea developed organic solar cells with excellent stability and 18.2% efficiency

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[Advanced Functional Materials (IF>19.924)] The research team of Professor Changduk Yang from UNIST, South Korea developed organic solar cells with excellent stability and 18.2% efficiency Enlitech- Selection of Top Teams! Highlights Professor Changduk Yang’s research team at UNIST, South Korea developed a new electron-transporting material H75, achieving 18.2% efficiency in organic solar cells. H75-based cells …

[Advanced Functional Materials (IF>19.924)] The research team of Professor Changduk Yang from UNIST, South Korea developed organic solar cells with excellent stability and 18.2% efficiency Read More »

ACS Energy Letters(IF:23.991) UNIST Chunhui Duan Near-infrared Electron Acceptance of Cyano-substituted 2-(3-Oxo-2,3-dihydroinden-1-ylidene)malononitrile End Groups for Organic Solar Cells Bulk efficiency>18.1% Untitled 1 2

ACS Energy Letters(IF:23.991) UNIST Chunhui Duan Near-infrared Electron Acceptance of Cyano-substituted 2-(3-Oxo-2,3-dihydroinden-1-ylidene)malononitrile End Groups for Organic Solar Cells Bulk efficiency>18.1%

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ACS Energy Letters(IF:23.991) UNIST Chunhui Duan Near-infrared Electron Acceptance of Cyano-substituted 2-(3-Oxo-2,3-dihydroinden-1-ylidene)malononitrile End Groups for Organic Solar Cells Bulk efficiency>18.1% Enlitech- Selection of Top Teams! Highlights Cyano-substituted 2-(3-oxo-2,3-dihydroinden-1-ylidene)acrylonitrile (CN-IC) end groups exhibit strong electron-withdrawing ability to reduce the bandgap of acceptor materials. The A-DA’D-A type acceptor material BTPCN with CN-IC end groups achieved an optical …

ACS Energy Letters(IF:23.991) UNIST Chunhui Duan Near-infrared Electron Acceptance of Cyano-substituted 2-(3-Oxo-2,3-dihydroinden-1-ylidene)malononitrile End Groups for Organic Solar Cells Bulk efficiency>18.1% Read More »

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