引用本文:
Ping Liu, Tu Hua Chen, Wan Zhang Pan, Ming Sheng Huang, Wen Ji Deng, Yu Liang Mai, An Bo Luan. Flexible organic photovoltaic devices based on oligothiophene derivatives[J]. Chinese Chemical Letters,
2008, 19(2): 207-210.
doi:
10.1016/j.cclet.2007.12.006
Citation: Ping Liu, Tu Hua Chen, Wan Zhang Pan, Ming Sheng Huang, Wen Ji Deng, Yu Liang Mai, An Bo Luan. Flexible organic photovoltaic devices based on oligothiophene derivatives[J]. Chinese Chemical Letters, 2008, 19(2): 207-210. doi: 10.1016/j.cclet.2007.12.006
Citation: Ping Liu, Tu Hua Chen, Wan Zhang Pan, Ming Sheng Huang, Wen Ji Deng, Yu Liang Mai, An Bo Luan. Flexible organic photovoltaic devices based on oligothiophene derivatives[J]. Chinese Chemical Letters, 2008, 19(2): 207-210. doi: 10.1016/j.cclet.2007.12.006
Flexible organic photovoltaic devices based on oligothiophene derivatives
摘要:
For the purpose of developing flexible organic photovoltaic devices, we have fabricated two flexible devices using 5-formyl-2, 2':5', 2":5", 2"'-quaterthiophene (4T-CHO), 5-formyl-2, 2':5', 2":5", 2'":5"', 2"''-quinquethiophene (5T-CHO) and 3, 4, 9, 10-peryle-netertracarboxylic dianhydride (PTCDA).The PET-ITO/4T-CHO/PTCDA/AI device has an open circuit voltage (V∝) of 1.56 V, photoelectric conversion efficiency of 0.77%.The PET-ITO/ST-CHO/PTCDA/AI device has a V∝ of 1.70 V, photoelectric conversion efficiency of 0.84%.The two flexible devices have high V∝(1.56 and 1.70 V).It is possible that intermolecular hydrogen bonding between-CHO group of nT-CHO and carboxylic dianhydride of PTCDA contributes to enhancing the efficiency by promoting interfacial electron transfer and eliminating the subconducting band trap sites.
English
Flexible organic photovoltaic devices based on oligothiophene derivatives
Abstract:
For the purpose of developing flexible organic photovoltaic devices, we have fabricated two flexible devices using 5-formyl-2, 2':5', 2":5", 2"'-quaterthiophene (4T-CHO), 5-formyl-2, 2':5', 2":5", 2'":5"', 2"''-quinquethiophene (5T-CHO) and 3, 4, 9, 10-peryle-netertracarboxylic dianhydride (PTCDA).The PET-ITO/4T-CHO/PTCDA/AI device has an open circuit voltage (V∝) of 1.56 V, photoelectric conversion efficiency of 0.77%.The PET-ITO/ST-CHO/PTCDA/AI device has a V∝ of 1.70 V, photoelectric conversion efficiency of 0.84%.The two flexible devices have high V∝(1.56 and 1.70 V).It is possible that intermolecular hydrogen bonding between-CHO group of nT-CHO and carboxylic dianhydride of PTCDA contributes to enhancing the efficiency by promoting interfacial electron transfer and eliminating the subconducting band trap sites.
扫一扫看文章
计量
- PDF下载量: 1
- 文章访问数: 753
- HTML全文浏览量: 34
下载:
