Perovskite

《Nature Communications》The research team led by Tze Chien Sum from Nanyang Technological University in Singapore - Use mixed materials achieve high-efficiency carrier multiplication with internal quantum efficiency exceeding 100% 49

《Nature Communications》The research team led by Tze Chien Sum from Nanyang Technological University in Singapore – Use mixed materials achieve high-efficiency carrier multiplication with internal quantum efficiency exceeding 100%

Nature Communications》The research team led by Tze Chien Sum from Nanyang Technological University in Singapore – Use mixed materials achieve high-efficiency carrier multiplication with internal quantum efficiency exceeding 100% Carrier Multiplication Effect Helps Break Shockley-Queisser Limit of Single-Junction Perovskite Solar Cells The carrier multiplication (CM) effect in perovskite solar cells has long been highly anticipated …

《Nature Communications》The research team led by Tze Chien Sum from Nanyang Technological University in Singapore – Use mixed materials achieve high-efficiency carrier multiplication with internal quantum efficiency exceeding 100% Read More »

AEM: 20.3% High Efficiency! Inverted Perovskite Solar Cells 38

AEM: 20.3% High Efficiency! Inverted Perovskite Solar Cells

AEM: 20.3% High Efficiency! Inverted Perovskite Solar Cells Phenyl-C61-butyric acid methyl ester (PCBM) is the most commonly used electron transport layer in inverted perovskite solar cells (IPSCs). However, its electrical performance and passivation ability limit the performance of the device. Recently, Pu Shuping and Cui Guanglei et al. from the Qingdao Institute of Bioenergy and …

AEM: 20.3% High Efficiency! Inverted Perovskite Solar Cells Read More »

(News) Nature: SKKU Nam-Gyu Park & CAS & NCEPU Research Teams Proposed Perovskite Solar Cells that Achieves Nearly 26% Efficiency and Stability Through Cation Homogenization 66

(News) Nature: SKKU Nam-Gyu Park & CAS & NCEPU Research Teams Proposed Perovskite Solar Cells that Achieves Nearly 26% Efficiency and Stability Through Cation Homogenization

(News) Nature: SKKU Nam-Gyu Park & CAS & NCEPU Research Teams Proposed Perovskite Solar Cells that Achieves Nearly 26% Efficiency and Stability Through Cation Homogenization Highlights The research article was published by Nam-Gyu Park from SKKU, Xu Pan & Jiajiu Ye form Chinese Academy of Sciences (CAS*)* and Songyuan Dai from NCEPU et.al. Perovskite solar …

(News) Nature: SKKU Nam-Gyu Park & CAS & NCEPU Research Teams Proposed Perovskite Solar Cells that Achieves Nearly 26% Efficiency and Stability Through Cation Homogenization Read More »

《Nature(IF>69.504)》Perovskite Interface Structure Optimization Enables 28.5% Efficient Tandem Solar Cells-Recent Research by Hairen Tan's Team 譚海仁團隊最新研究 鈣鈦礦界面結構優化

《Nature(IF>69.504)》Perovskite Interface Structure Optimization Enables 28.5% Efficient Tandem Solar Cells-Recent Research by Hairen Tan’s Team

《Nature(IF>69.504)》Perovskite Interface Structure Optimization Enables 28.5% Efficient Tandem Solar Cells-Recent Research by Hairen Tan’s Team Highlights The research team introduced a double-layer perovskite heterojunction at the interface of lead-tin mixed perovskite/electron transport layer, which effectively suppressed interfacial recombination and improved charge extraction efficiency. By depositing a layer of lead halide wide bandgap perovskite on top …

《Nature(IF>69.504)》Perovskite Interface Structure Optimization Enables 28.5% Efficient Tandem Solar Cells-Recent Research by Hairen Tan’s Team Read More »

《Science(IF>63.832)》The LinXole AB FENG WANG team - High-Efficiency and Stable Perovskite Solar Cells - Achieved over 25% high power conversion efficiency and significantly improved device stability under thermal and illumination conditions 高效穩定的鈣鈦礦太陽電池

《Science(IF>63.832)》The LinXole AB FENG WANG team – High-Efficiency and Stable Perovskite Solar Cells – Achieved over 25% high power conversion efficiency and significantly improved device stability under thermal and illumination conditions

《Science(IF>63.832)》The LinXole AB FENG WANG team – High-Efficiency and Stable Perovskite Solar Cells – Achieved over 25% high power conversion efficiency and significantly improved device stability under thermal and illumination conditions Highlights The research team developed an innovative doping approach for the hole transport layer spiro-OMeTAD in perovskite solar cells, using stable organic radicals as …

《Science(IF>63.832)》The LinXole AB FENG WANG team – High-Efficiency and Stable Perovskite Solar Cells – Achieved over 25% high power conversion efficiency and significantly improved device stability under thermal and illumination conditions Read More »

《Energy and Environmental Sciences (IF 39.714)》Alkylammonium Ionic Liquids as Dopants in the Hole Transport Layer for Efficient and Stable Perovskite Solar Cells: Research from Professor Jangwon Seo's team at UNIST (Ulsan National Institute of Science and Technology), South Korea 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 2

《Energy and Environmental Sciences (IF 39.714)》Alkylammonium Ionic Liquids as Dopants in the Hole Transport Layer for Efficient and Stable Perovskite Solar Cells: Research from Professor Jangwon Seo’s team at UNIST (Ulsan National Institute of Science and Technology), South Korea

《Energy and Environmental Sciences (IF 39.714)》Alkylammonium Ionic Liquids as Dopants in the Hole Transport Layer for Efficient and Stable Perovskite Solar Cells: Research from Professor Jangwon Seo’s team at UNIST (Ulsan National Institute of Science and Technology), South Korea Highlights Professor Jangwon Seo’s team at UNIST (Ulsan National Institute of Science and Technology), South Korea …

《Energy and Environmental Sciences (IF 39.714)》Alkylammonium Ionic Liquids as Dopants in the Hole Transport Layer for Efficient and Stable Perovskite Solar Cells: Research from Professor Jangwon Seo’s team at UNIST (Ulsan National Institute of Science and Technology), South Korea Read More »

2022 Advanced Materials (IF30.849 ): How Ternary Tin (II) Alloy can be used as tin-lead perovskite solar cells Hole transport layer to achieve high efficiency and stability? 縮圖 4

2022 Advanced Materials (IF30.849 ): How Ternary Tin (II) Alloy can be used as tin-lead perovskite solar cells Hole transport layer to achieve high efficiency and stability?

2022 Advanced Materials (IF30.849 ): How Ternary Tin (II) Alloy can be used as tin-lead perovskite solar cells Hole transport layer to achieve high efficiency and stability?     Tin-lead (Sn-Pb) narrow bandgap (NBG) perovskites show great potential in both single-junction and all-perovskite tandem solar cells. Sn-Pb perovskite solar cells (PSCs) are still limited by …

2022 Advanced Materials (IF30.849 ): How Ternary Tin (II) Alloy can be used as tin-lead perovskite solar cells Hole transport layer to achieve high efficiency and stability? Read More »

2022 Chemical Engineering Journal : How an overall interface modification strategy can improve perovskite solar cell performance and reduce lead leakage 縮圖 1

2022 Chemical Engineering Journal : How an overall interface modification strategy can improve perovskite solar cell performance and reduce lead leakage

2022 Chemical Engineering Journal : How an overall interface modification strategy can improve perovskite solar cell performance and reduce lead leakage Highlights1. A holistic interface strategy has been proved to improve the performance of PSC. 2. The PCE of the device is 24.14% (0.09 cm2) and 17.36% (19.32 cm2), respectively. 3. The lead leakage of …

2022 Chemical Engineering Journal : How an overall interface modification strategy can improve perovskite solar cell performance and reduce lead leakage Read More »

Voc-loss analysis

Everyone is using – Voc-loss analysis helps you break through the ultra-high efficiency of perovskite solar cells!

Contents Everyone is using – Voc-loss analysis helps you break through the ultra-high efficiency of perovskite solar cells! Contents Preface  Research reports published in many top journals show that Voc-loss analysis is currently the most effective method used by many researchers to continuously break through the efficiency limit of perovskite solar cells (PSCs). Figure 1. …

Everyone is using – Voc-loss analysis helps you break through the ultra-high efficiency of perovskite solar cells! Read More »

18.64% Cs Lead Inorganic Perovskite Solar Cells

Scientists Jingbi You et. al. in CAS Reported Cesium Lead Inorganic Solar Cell with 18.64%, Voc=1.25V, 1000hr Performance.

Scientific Column Scientists Jingbi You et. al. in CAS Reported Cesium Lead Inorganic Solar Cell with 18.64%, Voc=1.25V, 1000hr Performance. First Author: Qiufeng Ye Corresponding Authors: Pingqi Gao, Xingwang Zhang, and Jingbi You DOI: 10.1002/adma.201905143 Highlights The structure of cesium-based inorganic perovskite solar cells has improved stability and has good application prospects. The large open …

Scientists Jingbi You et. al. in CAS Reported Cesium Lead Inorganic Solar Cell with 18.64%, Voc=1.25V, 1000hr Performance. Read More »

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