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

Leave a Comment / PV Application / 2022, Advanced, Advanced Materials, IF > 30, QE-R

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 »

antimony chalcogenide solution post-treatment solar cell

May 10 20222022-05-12

2021 Adv. Energy Mater., Sb₂(S,Se)₃ Solar Cell PCE 10.7%! How to Achieve through Solution Post-Treatment?

Leave a Comment / PV Application / 2022, Advanced, Advanced Energy Materials, IF > 20, SS-X

2021 Adv. Energy Mater., Sb2(S,Se)3 Solar Cell PCE 10.7%! How to Achieve through Solution Post-Treatment? SS-X solar simulator makes the breakthrough possible! 　　Advanced Energy Materials (IF 29.368) published a study in November 2021. Antimony chalcogenides (Sb2(SxSe1–x)3,0 < x < 1) have been considered as an alternative photovoltaic material for thin-film solar cells over the past …

2021 Adv. Energy Mater., Sb₂(S,Se)₃ Solar Cell PCE 10.7%! How to Achieve through Solution Post-Treatment? Read More »

Inverted perovskite solar cell Efficiency Breakthrough 25% PCE

Apr 29 20222022-05-12

2022 Science (IF 47.728), Breakthrough Efficiency of 25%! How to make inverted perovskite solar cells highly efficient and stable?

Leave a Comment / PV Application / 2022, IF > 40, REPS, Science

2022 Science (IF 47.728), Breakthrough Efficiency of 25%! How to make inverted perovskite solar cells highly efficient and stable? Enlitech’s REPS system makes Voc-loss analysis of solar cells no longer out of reach! 　　Compared with traditional n-i-p perovskite solar cells, inverted (p-i-n) perovskite solar cells have higher stability and lifetime, but generally have lower power …

2022 Science (IF 47.728), Breakthrough Efficiency of 25%! How to make inverted perovskite solar cells highly efficient and stable? Read More »

dual-functional Strategy regulate crystallization defects

Apr 19 20222022-04-21

2022 Joule, Efficiency reaches 24.25% Single PSC！How Dual-Functional Strategy Regulate Crystallization and Defects

Leave a Comment / PV Application / IF > 40, Joule, QE-R

2022 Joule, Efficiency reaches 24.25% Single PSC！How Dual-Functional Strategy Regulate Crystallization and Defects Top-Notch Due to It’s Precision! 　　Highlights: A dual-functional strategy is developed to regulate crystallization and defects A single PSC cell can achieve 24.25% efficiency with excellent stability 10.4cm2 minimodule can achieve >20.5% efficiency 　　Joule (IF 41.248) published a study in March 2022. …

2022 Joule, Efficiency reaches 24.25% Single PSC！How Dual-Functional Strategy Regulate Crystallization and Defects Read More »

Perovskite Films Solar Cells Crystal Growth Regulation solar simulator EQE test

Mar 29 20222022-05-11

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

Leave a Comment / PV Application / 2022, Advanced, Advanced Materials, IF > 30, QE-R, SS-X

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

Mar 15 20222022-05-11

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

Leave a Comment / PV Application / 2022, Advanced, Advanced Materials, IF > 30, QE-R, SS-X

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 »

open-circuit voltage halide perovskite film

Mar 9 20222022-03-09

2021 Angew. Chem. Int. Ed., Open-circuit Voltage over 1.23V! How to Solve the Defect Problem of Perovskite Films?

Leave a Comment / PV Application / 2021, Angew. Chem. Int. Ed., IF > 10, QE-R

2021 Angew. Chem. Int. Ed., Open-circuit voltage over 1.23V! How to solve the defect problem of perovskite films? Top-Notch Due to It’s Precision! 　　Angewandte Chemie (IF 15.336) published a study in December 2021. During solution processing of organic-inorganic halide perovskite films, halide-anion-related defects, including halide vacancies and interstitial defects, readily form at the surfaces and …

2021 Angew. Chem. Int. Ed., Open-circuit Voltage over 1.23V! How to Solve the Defect Problem of Perovskite Films? Read More »

Mixed-Halide PSC Phase Segregation Suppression Voltage Deficit

Mar 8 20222022-03-08

2021 Adv. Funct. Mater., Phase Segregation Suppression of Wide-E_g Mixed-Halide PSC. Unlocking Dilemma of Voltage Deficit?

Leave a Comment / PV Application / 2022, Advanced, Advanced Functional Materials, IF > 10, QE-R, SS-X

2021 Adv. Funct. Mater., Phase Segregation Suppression of Wide-Eg Mixed-Halide PSC. Unlocking Dilemma of Voltage Deficit? SS-X solar simulator makes the breakthrough possible! Top-Notch Due to It’s Precision! For applications in photovoltaics, wide bandgap (Eg) mixed-halide perovskites have attracted extensive attention. However, devices of wide bandgap (Eg) mixed-halide perovskites tend to have large voltage deficits …

2021 Adv. Funct. Mater., Phase Segregation Suppression of Wide-E_g Mixed-Halide PSC. Unlocking Dilemma of Voltage Deficit? Read More »

Low-Dimensional-Organic-Semiconductor-Incorporated-Perovskites

Feb 23 20222022-02-23

2022 Small Structures: Stability Improved! Exploring the Effect of Terminal Groups on Low-Dimensional Perovskites

Leave a Comment / PV Application / 2022, IF > 10, Small Structures, SS-X

2022 Small Structures, Stability Improved! Exploring the Effect of Terminal Groups on Low-Dimensional Perovskites SS-X solar simulator makes the breakthrough possible! 　　Small Structures (IF 11.459) published a study by Letian Dou of Purdue University and others in January 2022. Metal halide perovskites have excellent properties and can be used in solar cells, detectors, and other …

2022 Small Structures: Stability Improved! Exploring the Effect of Terminal Groups on Low-Dimensional Perovskites Read More »

HAc tin-based perovskite solar cells stable and high efficiency

Feb 21 20222022-02-24

2021 Adv. Funct. Mater., How does HAc assist tin-based perovskite solar cells to achieve stable and high efficiency?

Leave a Comment / PV Application / 2021, Advanced, Advanced Functional Materials, QE-R, SS-X

2021 Adv. Funct. Mater., How does HAc assist tin-based perovskite solar cells to achieve stable and high efficiency? SS-X solar simulator makes the breakthrough possible! Top-Notch Due to It’s Precision! 　　The excellent optoelectronic properties make organic-inorganic halide perovskite materials attract great attention in the photovoltaic field. However, perovskite materials contain heavy metal lead, which is …

2021 Adv. Funct. Mater., How does HAc assist tin-based perovskite solar cells to achieve stable and high efficiency? Read More »