8月20日
10am - 10:30am
研讨会, 演讲, 讲座
Speaker: Professor Ziyi GE
Instution: Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences
Hosted by: Henry He YAN
Abstract
Organic solar cells have the advantages of low cost, light weight, flexibility and easy fabrication in large area. They have important application prospects in the fields of portable electronics, BIPV and military industry. We mainly introduce the progress in solution-processable flexible organic solar cells. Firstly, a kind of low-cost non-conjugated small-molecule electrolyte manufactured by wet process was innovatively developed as cathode interface of organic solar cells. Instead of traditional evaporation-plated interface materials and expensive organic conjugated interface materials, the photoelectric conversion efficiency of single-junction positive polymer solar cells was increased up to 10.02%, breaking through the bottleneck of 10% efficiency for single-junction organic solar cells1. This kind of interface material has low price and can be processed by wet process such as printing, which can effectively reduce the preparation cost of organic solar cells. Secondly, flexible OPV without ITO electrode was prepared by wet process, and the efficiency was over 10%2. At the same time, it was found that adding carbohydrates to conductive polymer PEDOT electrode could improve the adhesion between the electrode and PET flexible substrate, thereby greatly improving the bending resistance of the device3. In addition, by further using the ternary heterojunction strategy, the efficiency is increased to over 14.06%, and the bending resistance is more than 1000 times, which is among the highest efficiency for flexible organic solar cells4.
References
1 Ouyang X, Peng R.; Ai L, Zhang X, Ge Z. * Nature Photonics, 2015, 9: 520.
2 Song, Z. Ge* et al, Advanced Materials, 2018, 30:1800075.
3 Peng R.; Song W.; Ge Z.* et al, Mater. Chem. A, 2019, 7:11460.
4 Yan, W. Song, Z. Ge* et al, Advanced Materials, 2019, 1902210.
About the speaker
Professor GE has nearly 20 years of experience in the research on organic/perovskite solar cell devices, organic/polymer light-emitting diodes and conductive polymers as functional materials. Prof. GE has authored more than 90 scientific papers and 20 patents in the field of organic optoelectronic materials and devices on top journals such as Nature Photonics and Advanced Materials, which were cited over 1700 times. In recent five years, he is in charge of over 10 national and ministry projects, including 4 National Natural Science Foundation projects, CAS international cooperation project, and Fok Ying-Tong Education Foundation etc.
Instution: Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences
Hosted by: Henry He YAN
Abstract
Organic solar cells have the advantages of low cost, light weight, flexibility and easy fabrication in large area. They have important application prospects in the fields of portable electronics, BIPV and military industry. We mainly introduce the progress in solution-processable flexible organic solar cells. Firstly, a kind of low-cost non-conjugated small-molecule electrolyte manufactured by wet process was innovatively developed as cathode interface of organic solar cells. Instead of traditional evaporation-plated interface materials and expensive organic conjugated interface materials, the photoelectric conversion efficiency of single-junction positive polymer solar cells was increased up to 10.02%, breaking through the bottleneck of 10% efficiency for single-junction organic solar cells1. This kind of interface material has low price and can be processed by wet process such as printing, which can effectively reduce the preparation cost of organic solar cells. Secondly, flexible OPV without ITO electrode was prepared by wet process, and the efficiency was over 10%2. At the same time, it was found that adding carbohydrates to conductive polymer PEDOT electrode could improve the adhesion between the electrode and PET flexible substrate, thereby greatly improving the bending resistance of the device3. In addition, by further using the ternary heterojunction strategy, the efficiency is increased to over 14.06%, and the bending resistance is more than 1000 times, which is among the highest efficiency for flexible organic solar cells4.
References
1 Ouyang X, Peng R.; Ai L, Zhang X, Ge Z. * Nature Photonics, 2015, 9: 520.
2 Song, Z. Ge* et al, Advanced Materials, 2018, 30:1800075.
3 Peng R.; Song W.; Ge Z.* et al, Mater. Chem. A, 2019, 7:11460.
4 Yan, W. Song, Z. Ge* et al, Advanced Materials, 2019, 1902210.
About the speaker
Professor GE has nearly 20 years of experience in the research on organic/perovskite solar cell devices, organic/polymer light-emitting diodes and conductive polymers as functional materials. Prof. GE has authored more than 90 scientific papers and 20 patents in the field of organic optoelectronic materials and devices on top journals such as Nature Photonics and Advanced Materials, which were cited over 1700 times. In recent five years, he is in charge of over 10 national and ministry projects, including 4 National Natural Science Foundation projects, CAS international cooperation project, and Fok Ying-Tong Education Foundation etc.
8月20日
10am - 10:30am
地点
Room 4504, 4/F (Lifts 25/26), Academic Building, HKUST
讲者/表演者
主办单位
Department of Chemistry
联系方法
chivy@ust.hk
付款详情
对象
PG Students, Faculty and Staff
语言
英语
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