Efficient open-air and as-cast processed organic solar cells enabled by optimized block and surface morphology using a low-cost terpolymer donor with enhanced dielectric constant
Zhenyu Li Haijun Bin Yongfang Li Chenkai Sun Xiaolei Kong Jinyuan Zhang Panpan Zhang Aoxiang Li Xixi Zhang Xinrui Li Mingqi Tan Jing Li
纳米研究(英文版)2025,Vol.18Issue(12):489-497,9.
纳米研究(英文版)2025,Vol.18Issue(12):489-497,9.DOI:10.26599/NR.2025.94908153
Efficient open-air and as-cast processed organic solar cells enabled by optimized block and surface morphology using a low-cost terpolymer donor with enhanced dielectric constant
Efficient open-air and as-cast processed organic solar cells enabled by optimized block and surface morphology using a low-cost terpolymer donor with enhanced dielectric constant
摘要
关键词
organic solar cells/open-air and as-cast processing/low-cost polymer donors/dielectric constant/block and surface morphologyKey words
organic solar cells/open-air and as-cast processing/low-cost polymer donors/dielectric constant/block and surface morphology引用本文复制引用
Zhenyu Li,Haijun Bin,Yongfang Li,Chenkai Sun,Xiaolei Kong,Jinyuan Zhang,Panpan Zhang,Aoxiang Li,Xixi Zhang,Xinrui Li,Mingqi Tan,Jing Li..Efficient open-air and as-cast processed organic solar cells enabled by optimized block and surface morphology using a low-cost terpolymer donor with enhanced dielectric constant[J].纳米研究(英文版),2025,18(12):489-497,9.基金项目
This work was supported by the National Natural Science Foundation of China(No.52103240)and the Science and Technology Department of Henan Province(No.242301420056).The authors are grateful for the technical support for Nano-X from Suzhou Institute of Nano-Tech and Nano-Bionics,Chinese Academy of Sciences.The authors thank Dr.Qing Zhang for assistance with the GIWAXS characterizations and analysis. (No.52103240)
