IF > 30

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 »

Modulating the deep-level defects and charge extraction

Science News: 2022 Energy Environ. Sci. (IF 38.532), Perovskite Solar Cells with High Fill Factor over 86%! By Regulating Deep-level defects and Charge Extraction

Science News: 2022 Energy Environ. Sci. (IF 38.532), Perovskite Solar Cells with High Fill Factor over 86%! By Regulating Deep-level defects and Charge Extraction In recent years, the power conversion of perovskite solar cell (PSC) has received great attention due to its rapid development. However, the reported fill factors (FFs) still lag behind those of …

Science News: 2022 Energy Environ. Sci. (IF 38.532), Perovskite Solar Cells with High Fill Factor over 86%! By Regulating Deep-level defects and Charge Extraction Read More »

Halogenated Thiophenes Serve

Science News: 2022 Energy Environ. Sci., How Solvent Additives- Halogenated Thiophenes Improve Organic Solar Cell Efficiency?

Science News: 2022 Energy Environ. Sci., How Solvent Additives- Halogenated Thiophenes Improve Organic Solar Cell Efficiency?   Energy Environ. Sci. published a study in 2022. To enhance the efficiency of organic solar cells, the addition of solvent additives to the donor and acceptor solutions is considered to be a rather effective strategy. Since the current state-of-the-art …

Science News: 2022 Energy Environ. Sci., How Solvent Additives- Halogenated Thiophenes Improve Organic Solar Cell Efficiency? Read More »

Science news: 2022 ADVANCED MATERIALS (IF 32.086): Achieving 15.4% EQE! How to achieve high efficiency with the addition of 2-phenethylammonium iodide (PEAI)? 圖片016

Science news: 2022 ADVANCED MATERIALS (IF 32.086): Achieving 15.4% EQE! How to achieve high efficiency with the addition of 2-phenethylammonium iodide (PEAI)?

Science news: 2022 ADVANCED MATERIALS (IF 32.086): Achieving 15.4% EQE! How to achieve high efficiency with the addition of 2-phenethylammonium iodide (PEAI)? The performance of perovskite quantum dots (QDs) and QD-based light-emitting diodes (QLEDs) has been greatly improved in recent years, with electroluminescence (EL) efficiencies exceeding 20% for green and red emission. However, the development …

Science news: 2022 ADVANCED MATERIALS (IF 32.086): Achieving 15.4% EQE! How to achieve high efficiency with the addition of 2-phenethylammonium iodide (PEAI)? 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 »

shear-impulse-approach-to-green-printing-large-area

2022 Energy Environ. Sci., Shear Impulse Approach for the Preparation of High-Performance and Scalable Organic Solar Cells in Green Solvents

Contents 2022 Energy Environ. Sci., Shear Impulse Approach for the Preparation of High-Performance and Scalable Organic Solar Cells in Green Solvents Contents Highlights In this research, the shear impulse strategy is used to fine-tune the morphology of non-halogenated solvent treated active layer films, and the critical conditions for homogenizing printing organic solar cells (OSCs) are …

2022 Energy Environ. Sci., Shear Impulse Approach for the Preparation of High-Performance and Scalable Organic Solar Cells in Green Solvents Read More »

Large-area Organic Solar Modules BMA blade coating strategy

2022 Adv. Mater. (IF 30.849), Highest Efficiency of Large-area Organic Solar Modules! A New Way to Develop High-performance Solar Modules

2022 Adv. Mater. (IF 30.849), Highest Efficiency of Large-area Organic Solar Modules! A New Way to Develop High-performance Solar Modules Top-Notch Due to It’s Precision!   In the development of organic solar cells, although there have been encouraging progress in spin-coated prototype cells, there are still great challenges in large-area modules. Among them, one of the …

2022 Adv. Mater. (IF 30.849), Highest Efficiency of Large-area Organic Solar Modules! A New Way to Develop High-performance Solar Modules Read More »

Perovskite Films Solar Cells Crystal Growth Regulation solar simulator EQE test

2022 Adv. Mater., 22.26% Stable PCE! Reducing The Electronic Defects via Crystal Growth Regulation of Perovskite Films?

2022 Adv. Mater., 22.26% Stable PCE! Reducing The Electronic Defects via Crystal Growth Regulation of Perovskite Films? SS-X solar simulator makes the breakthrough possible!Top-Notch Due to It’s Precision!   How to reduce electronic defects in perovskite thin films? This question has become a major challenge to improve the photovoltaic performance of perovskite solar cells.   On March …

2022 Adv. Mater., 22.26% Stable PCE! Reducing The Electronic Defects via Crystal Growth Regulation of Perovskite Films? Read More »

Perovskite Doping Organic Ferroelectric Materials solar cell

2022 Adv. Mater., Over 24% PCE! How Do Highly Polarizable Organic Ferroelectric Materials Achieve Perovskite Doping?

2022 Adv. Mater., Over 24% PCE! How Do Highly Polarizable Organic Ferroelectric Materials Achieve Perovskite Doping? SS-X solar simulator makes the breakthrough possible!Top-Notch Due to It’s Precision!   Through selective doping materials, the built-in electric field (BEF) strength of silicon heterojunction solar cells can be easily increased and high power conversion efficiency (PCE) can be achieved. …

2022 Adv. Mater., Over 24% PCE! How Do Highly Polarizable Organic Ferroelectric Materials Achieve Perovskite Doping? Read More »

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