PV Application

2023Advanced Materials (IF: 30.849), Jianhui Hou's research team used phase dynamics to improve the absorption of solar photons in both single junction and string organic photovoltaic cells, resulting in PCE exceeding 20%! 2023.02.03侯劍輝封面縮圖

2023Advanced Materials (IF: 30.849), Jianhui Hou’s research team used phase dynamics to improve the absorption of solar photons in both single junction and string organic photovoltaic cells, resulting in PCE exceeding 20%!

2023 Advanced Materials (IF: 30.849), Jianhui Hou’s research team used phase dynamics to improve the absorption of solar photons in both single junction and string organic photovoltaic cells, resulting in PCE exceeding 20%! Enlitech – Top team selection! Organic photovoltaic (OPV) cells are a new type of solar cell, with organic materials as the main …

2023Advanced Materials (IF: 30.849), Jianhui Hou’s research team used phase dynamics to improve the absorption of solar photons in both single junction and string organic photovoltaic cells, resulting in PCE exceeding 20%! Read More »

2022 Advanced Materials (IF: 32.086), Using PenAAc to modify the interface to achieve efficient and stable flexible PSCs! 縮圖

2022 Advanced Materials (IF: 32.086), Using PenAAc to modify the interface to achieve efficient and stable flexible PSCs!

2022 Advanced Materials (IF: 32.086), Using PenAAc to modify the interface to achieve efficient and stable flexible PSCs! Top-Notch Due to It’s Precision!        Rigid perovskite solar cells (PSCs) have attracted attention due to their high conversion efficiency (PCE) as high as 25.7%. However, flexible PSCs have not achieved the same success due …

2022 Advanced Materials (IF: 32.086), Using PenAAc to modify the interface to achieve efficient and stable flexible PSCs! Read More »

2022 Advanced Energy Materials (IF:29.368), Benzotriazole-Based Polymer solar cells efficiency reaches 16.58%! Benzotriazole Based Polymer solar cells efficiency reaches 16.58縮圖

2022 Advanced Energy Materials (IF:29.368), Benzotriazole-Based Polymer solar cells efficiency reaches 16.58%!

2022 Advanced Energy Materials (IF:29.368), Benzotriazole-Based Polymer solar cells efficiency reaches 16.58%! SS-X solar simulator makes the breakthrough possible! Top-Notch Due to It’s Precision! Polymer solar cells are a promising alternative to traditional solar cells made from silicon, as they are less expensive and easier to manufacture. However, their efficiency in converting sunlight into electrical …

2022 Advanced Energy Materials (IF:29.368), Benzotriazole-Based Polymer solar cells efficiency reaches 16.58%! Read More »

Facilely Achieved Self‐Biased Black Silicon Heterojunctio

2022 Advanced Science (IF 17.521), How do Heterojunction Photodiodes Achieve Near 100% Broadband Quantum Efficiency?

2022 Advanced Science (IF 17.521), How do Heterojunction Photodiodes Achieve Near 100% Broadband Quantum Efficiency? Top-Notch Due to It’s Precision!   Considering the continuing trend to produce low power consumption optoelectronic devices and products, self-biased semiconductor photodetectors, which convert incident photons into electrical signals without an applied voltage bias, have been a research topic of intense …

2022 Advanced Science (IF 17.521), How do Heterojunction Photodiodes Achieve Near 100% Broadband Quantum Efficiency? Read More »

Nonfullerene Acceptors for High-Performance Annealing-Free Organic Solar Cells

2022 ACS Applied Materials & Interfaces, How to Modify Non-Fullerene Acceptors to Improve the Performance of Organic Solar Cells

2022 ACS Applied Materials & Interfaces, How to Modify Non-Fullerene Acceptors to Improve the Performance of Organic Solar Cells Enlitech’s REPS and FTPS systems make Voc-oss analysis of solar cells no longer out of reach!   UNIST Changduk Yang of South Korea and Seung Man Noh of the Korea Research Institute of Chemical Technology recently published …

2022 ACS Applied Materials & Interfaces, How to Modify Non-Fullerene Acceptors to Improve the Performance of Organic Solar Cells Read More »

Composition-Conditioning Agent for Doped Spiro-OMeTAD

2022 Adv. Energy Mater., Excellent PCE of 24.19% for Perovskite Solar Cells! Composition-Conditioning Agent for Doped Spiro-OMeTAD

2022 Adv. Energy Mater., Excellent PCE of 24.19% for Perovskite Solar Cells! Composition-Conditioning Agent for Doped Spiro-OMeTAD SS-X solar simulator makes the breakthrough possible! Top-Notch Due to It’s Precision!   Advanced Energy Materials (IF 29.698) recently published a study. Doped Spiro-OMeTAD hole transport layer (HTL) formed by lithium bis(trifluoromethane)sulfonimide salt and 4-tert-butylpyridine and phenethylammonium iodide on …

2022 Adv. Energy Mater., Excellent PCE of 24.19% for Perovskite Solar Cells! Composition-Conditioning Agent for Doped Spiro-OMeTAD Read More »

Tautomeric-Passivation-Strategy

2022 ACS Energy Lett., How to improve the stability of perovskite solar modules? Using tautomeric passivation strategy!

2022 ACS Energy Lett., How to improve the stability of perovskite solar modules? Using tautomeric passivation strategy! SS-X solar simulator makes the breakthrough possible! Top-Notch Due to It’s Precision!   ACS Energy Letters published a study in September 2022. As the perovskite field continues to develop, there are still issues to overcome in the process. Defects …

2022 ACS Energy Lett., How to improve the stability of perovskite solar modules? Using tautomeric passivation strategy! Read More »

2022 Science, Achieve 25.6% certificated efficiency! The secret of stable perovskite cells - (PbI<sub>2</sub>)<sub>2</sub>RbCl 縮圖2

2022 Science, Achieve 25.6% certificated efficiency! The secret of stable perovskite cells – (PbI2)2RbCl

2022 Science (IF 47.728): Achieve 25.6% certificated efficiency! The secret of stable perovskite cells – (PbI2)2RbCl SS-X solar simulator makes the breakthrough possible! Top-Notch Due to It’s Precision! There are several ways to enhance the power conversion efficiency (PCE) of perovskite solar cells (PSCs). Science (IF 47.728) published a study in July 2022. In halide …

2022 Science, Achieve 25.6% certificated efficiency! The secret of stable perovskite cells – (PbI2)2RbCl Read More »

A Selective Targeting Anchor Strategy Affords Efficient and Stable Ideal-Bandgap Perovskite Solar Cells

2022 Adv. Mater., A Selective Targeting Anchoring Strategy for Efficient and Stable Ideal- Bandgap Perovskite Solar Cells

Contents 2022 Adv. Mater., A Selective Targeting Anchoring Strategy for Efficient and Stable Ideal- Bandgap Perovskite Solar Cells Contents Highlights   Selective targeted anchoring strategy can fabricate efficient and stable ideal-bandgap perovskite solar cells. Strategy of molecule selective targeting anchoring (STA) was established, employing phenethylammonium iodide (PEAI) and ethylenediaminediiodide (EDAI) as co-modifiers to selectively anchor with …

2022 Adv. Mater., A Selective Targeting Anchoring Strategy for Efficient and Stable Ideal- Bandgap Perovskite Solar Cells Read More »

2022 Science Beyond 24% Efficiency! How to Build an Interfacial Heterojunction for Inverse Perovskite Solar Cells

2022 Science: Beyond 24% Efficiency! How to Build an Interfacial Heterojunction for Inverse Perovskite Solar Cells?

Contents 2022 Science: Beyond 24% Efficiency! How to Build an Interfacial Heterojunction for Inverse Perovskite Solar Cells? Contents Highlights This study adopted the idea of constructing an interface heterojunction to increase the built-in potential and enhances the built-in potential of reverse perovskite cells. Through surface sulfidation, an efficient interfacial heterojunction was constructed, and the reverse …

2022 Science: Beyond 24% Efficiency! How to Build an Interfacial Heterojunction for Inverse Perovskite Solar Cells? Read More »

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