发表文章
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Balancing the Molecular Aggregation and Vertical Phase Separation in the Polymer: Nonfullerene Blend Films Enables 13.09% Efficiency of Organic Solar Cells with Inkjet-Printed Active Layer
Xingze Chen, Rong Huang, Yunfei Han, Wusong Zha, Jin Fang, Jian Lin, Qun Luo,* Zheng Chen, and Chang-Qi Ma
Adv. Energy Mater. 2022, 220004401 -
Wearable multichannel pulse condition monitoring system based on flexible pressure sensor arrays
Jie Wang, Yirun Zhu, Zhiyong Wu, Yunlin Zhang, Jian Lin *, Tao Chen, Huicong Liu , Fengxia Wang1* and Lining Sun
Microsystems & Nanoengineering,2022, 8,1602 -
Laminated high-performance semi-transparent perovsktie solar cells:Enabled by sticky polyethyleminine as glue
Hao Zhang , Rui Liu ,**, Shuxuan Guo , Zhenguo Wang , Xue Sun , Jian Lin ,*, Qun Luo ,Chang-Qi Ma ,***
Organic Electronics,2022, 100, 10635203 -
12.42% Monolithic 25.42 cm2 Flexible Organic Solar Cells Enabled by an Amorphous ITO-Modified Metal Grid Electrode
Yunfei Han, Zishou Hu, Wusong Zha, Xiaolian Chen, Li Yin, Jingbo Guo, Zhiyun Li, Qun Luo,* Wenming Su, and Chang-Qi Ma
Adv. Mater. 2022, 211027604 -
Simultaneously Achieving Highly Efficient and Stable Polymer:Non-Fullerene Solar Cells Enabled By Molecular Structure Optimization and Surface Passivation
Bowen Liu, Xiao Su, Yi Lin, Zerui Li, Lingpeng Yan, Yunfei Han, Qun Luo,* Jin Fang, Shangfeng Yang, Hongwei Tan,* and Chang-Qi Ma*
Adv. Sci. 2022, 9, 210458805 -
ZnO Surface Passivation with Glucose Enables Simultaneously Improving Efficiency and Stability of Inverted Polymer:Non-fullerene Solar Cells
Bo-Wen Liua,b, Ze-Rui Lib, Ling-Peng Yanb,Jing-Bo Guob, Qun Luoa,b, and Chang-Qi Maa,b*
Chinese J. Polym. Sci. 2022, 40, 1594–160306 -
Revealing aggregation of non-fullerene acceptors in intermixed phase by ultraviolet-visible absorption spectroscopy
Jin Fang,1,* Zhen Wang,2 Yiyao Chen,3 Qing Zhang,3 Jianqi Zhang,4 Lingyun Zhu,4 Maojie Zhang,5 Zheng Cui,1 Zhixiang Wei,4,* Harald Ade,2,* and Chang-Qi Ma1,6,*
Cell Reports Physical Science 3, 100983, July 20, 202207 -
Non-fused molecular photovoltaic acceptor with a planar core structure enabled by bulky and embracing-type side chains
Zhong-Xin Xue,a Jin Fang,*b Jia Li,c Di Zhang,a Zi-Wen Xu,a Li-Na Liu,ad Jianhua Yao,*cd Chang-Qi Ma b and Wei-Shi Li *ad
J. Mater. Chem. C, 2022, 10, 2945–294908 -
Boosting Perovskite Solar Cells Efficiency and Stability: Interfacial Passivation of Crosslinked Fullerene Eliminates the “Burn-in” Decay
Changzeng Ding, Li Yin, Jinlong Wang, Valentina Larini, Lianping Zhang, Rong Huang, Mathias Nyman, Liyi Zhao, Chun Zhao, Weishi Li, Qun Luo, Yanbin Shen, Ronald ?sterbacka, Giulia Grancini,* and Chang-Qi Ma*
Adv. Mater. 2022, 220765609 -
Functionalized-MXene-nanosheet-doped tin oxide enhances the electrical properties in perovskite solar cells
Li Yin,1,5 Chenguang Liu,4 Changzeng Ding,2,3 Chun Zhao,1,5,7,* Ivona Z. Mitrovic,5 Eng Gee Lim,1 Haibin Wang,1 Yi Sun,1,5 Yunfei Han,2,3 Zerui Li,2,3 Li Yang,6 Chang-Qi Ma,2,3,* and Cezhou Zhao1
Cell Reports Physical Science 3, 100905, June 15, 202210 -
Thermoplastic elastomer enhanced interface adhesion and bending durability for flexible organic solar cells
Zihan Xu1,2,3, Yunfei Han1,2,3, Yuanyuan Bai3, Xingze Chen2,3, Jingbo Guo2,3, Lianping Zhang2,3, Chao Gong2,3, Qun Luo1,2,3?,Ting Zhang1,3? and Chang-Qi Ma1,2,3?
npj Flexible Electronics (2022) 5611 -
Recent progress in organic solar cells (Part II device engineering)
Yahui Liu1, Bowen Liu2, Chang-Qi Ma2*, Fei Huang3, Guitao Feng4, Hongzheng Chen5,Jianhui Hou6, Lingpeng Yan2, Qingya Wei7, Qun Luo2*, Qinye Bao8*, Wei Ma9*, Wei Liu7,Weiwei Li4, Xiangjian Wan10, Xiaotian Hu11*, Yanchun Han12*, Yaowen Li13*, Yinhua Zhou14*,Yingping Zou7, Yiwang Chen11*, Yuqiang Liu1*, Lei Meng6*, Yongfang Li6,13*,Yongsheng Chen10, Zheng Tang15*, Zhicheng Hu3, Zhi-Guo Zhang16 & Zhishan Bo1*
Sci China Chem12 -
Fabrication of opaque aluminum electrode-based perovskite solar cells enabled by the interface optimization
Xue Sun a,b,c, Tong Lin a, Changzeng Ding a, Shuxuan Guo a, Irfan Ismail a, Zhenguo Wang a, Junfeng Wei a, Qun Luo a, Jian Lin a, Dongyu Zhang a,**, Chang-Qi Ma a,*
Organic Electronics 104 (2022) 10647513 -
Controllable Formation of PbI2 and PbI2(DMSO) Nano Domains in Perovskite Films through Precursor Solvent Engineering
Wusong Zha 1,2,?, Lianping Zhang 2,?, Long Wen 3, Jiachen Kang 2, Qun Luo 2,4,*, Qin Chen 3, Shangfeng Yang 5, Chang-Qi Ma 2,4,*
Acta Phys. -Chim. Sin. 2022, 38 (3), 2003022 (1 of 8)14 -
Monodispersed ZnO nanoink and ultra-smooth large-area ZnO films for high performance and stable organic solar cells
Jingbo Guo1,2, Yunfei Han2, Zihan Xu2, Wusong Zha2, Jin Fang2, Qun Luo2,?, Liqi Liu1,? and Chang-Qi Ma2
Flex. Print. Electron. 7 (2022) 02501315 -
狭缝涂布大面积氧化锌薄膜的制备及其在柔性有机太阳能电池中的应用
郭经波1,2, 韩云飞2, 龚超2, 潘雅琴2, 刘立起* 1, 骆群* 2, 马昌期2
[J]. 复合材料学报, 2022, 39(5): 1-10.16 -
Manipulating Charge Transfer and Transport via Intermediary Electron Acceptor Channels Enables 19.3% Efficiency Organic Photovoltaics
Lingling Zhan,* Shuixing Li, Yaokai Li, Rui Sun, Jie Min, Yiyao Chen, Jin Fang, Chang-Qi Ma, Guanqing Zhou, Haiming Zhu, Lijian Zuo, Huayu Qiu, Shouchun Yin,* and Hongzheng Chen*
Adv. Energy Mater. 2022, 12, 220107617 -
Versatile Sequential Casting Processing for Highly Efficient and Stable Binary Organic Photovoltaics
Chengliang He, Youwen Pan, Guanghao Lu, Baohua Wu, Xinxin Xia, Chang-Qi Ma, Zeng Chen, Haiming Zhu, Xinhui Lu, Wei Ma, Lijian Zuo,* and Hongzheng Chen*
Adv. Mater. 2022, 34, 220337918 -
Multiphase Morphology with Enhanced Carrier Lifetime via Quaternary Strategy Enables High-Efficiency, Thick-Film, and Large-Area Organic Photovoltaics
Lingling Zhan,* Shouchun Yin,* Yaokai Li, Shuixing Li, Tianyi Chen, Rui Sun, Jie Min, Guanqing Zhou, Haiming Zhu, Yiyao Chen, Jin Fang, Chang-Qi Ma, Xinxin Xia, Xinhui Lu, Huayu Qiu, Weifei Fu,* and Hongzheng Chen*
Adv. Mater. 2022, 34, 220626919 -
Manipulating the D:A interfacial energetics and intermolecular packing for 19.2% efficiency organic photovoltaics?
Chengliang He,a Youwen Pan,a Yanni Ouyang,b Qing Shen,a Yuan Gao,c Kangrong Yan,a Jin Fang,d Yiyao Chen,e Chang-Qi Ma,d Jie Min,c Chunfeng Zhang,b Lijian Zuo*a and Hongzheng Chen *a
Energy Environ. Sci., 2022, 15, 2537–254420