Efficiency Improvement of Organic Solar Cells by Using solvent Vapor Annealing and Thermal Vapor Annealing
- Fullerene solar cells are becoming a feasible choice due to advanced developments in donor materials and improved fabrication techniques of devices. Recently, sufficient optimization and improvements in processing techniques like incorporation of solvent vapor annealing (SVA) with additives in solvents has become a major reason for prominent improvements in the performance of organic solar cell-based devices . On the other hand, the challenge of reduced open circuit voltage (Voc) remains. This study presents an approach for significant performance improvement of overall device based on organic small molecular solar cells (SMSCs) by following a two step technique that comprises thermal annealing (TA) and SVA (abbreviated as SVA+TA). In case of exclusive use of SVA, reduction in Voc can be eliminated in an effective way. The characteristics of charge carriers can be determined by the measurement of transient photo-voltage (TPV) and transient photo-current (TPC) that determines the scope for improvement in the performance of device byFullerene solar cells are becoming a feasible choice due to advanced developments in donor materials and improved fabrication techniques of devices. Recently, sufficient optimization and improvements in processing techniques like incorporation of solvent vapor annealing (SVA) with additives in solvents has become a major reason for prominent improvements in the performance of organic solar cell-based devices . On the other hand, the challenge of reduced open circuit voltage (Voc) remains. This study presents an approach for significant performance improvement of overall device based on organic small molecular solar cells (SMSCs) by following a two step technique that comprises thermal annealing (TA) and SVA (abbreviated as SVA+TA). In case of exclusive use of SVA, reduction in Voc can be eliminated in an effective way. The characteristics of charge carriers can be determined by the measurement of transient photo-voltage (TPV) and transient photo-current (TPC) that determines the scope for improvement in the performance of device by two step annealing. The recovery of reduced Voc is linked with the necessary change in the dynamics of charge that lead to increased overall performance of device. Moreover, SVA and TA complement each other; therefore, two step annealing technique is an appropriate way to simultaneously improve the parameters such as Voc, fill factor (FF), short circuit current density (Jsc) and PCE of small molecular solar cells.…
Author: | Thomas ZehORCiDGND, Arsalan HaiderORCiD |
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URL / DOI: | http://iwam-rakcam.com/uploads/3/5/4/6/35462451/iwam2019program_webversion.pdf |
Parent Title (English): | Workshop Program: Eleventh Annual International Workshop on Advanced Materials (IWAM 2019) |
Publisher: | IWAM 2019 |
Place of publication: | Ras Al Khaimah |
Document Type: | conference proceeding (summary) |
Conference: | IWAM 2019 (11th International Workshop on Advanced Materials), 24.- 26. February 2019, Ras Al Khaimah, United Arab Emirates |
Language: | English |
Year of first Publication: | 2019 |
Tag: | Organic Solar Cells, Annealing, Efficiency |
Article Number: | I. 36 |
Number of pages: | 1 Seite |
Institutes: | Fakultät Elektrotechnik |
Dewey Decimal Classification: | 6 Technik, Medizin, angewandte Wissenschaften / 62 Ingenieurwissenschaften |
Research focus: | FSP2: Mobilität |
Publication Lists: | Zeh, Thomas |
Haider, Arsalan | |
Publication reviewed: | nicht begutachtet |
Release Date: | 2021/03/02 |