Improvement of Open-Circuit Voltage in Organic Photovoltaic Cells - Sarangerel, Khayankhyarvaa;Ganzorig, Chimed;Sakomura, Masuro
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Organic photovoltaic (OPV) cells have attracted attention because of their ease of fabrication and potential for low-cost production. Formation of monolayers by self-assembly at electrode surfaces has been widely used in recent years. This book describes improvements in OPV performance by fine-tuning the work functions of indium-tin oxide using surface chemical modification with p-benzenesulfonyl chloride derivatives with different terminal groups in order to enhance the open-circuit voltage. In order to decrease the work function of the Al electrode, a thin layer (ca. 10 nm) of Alq3 or…mehr

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Produktbeschreibung
Organic photovoltaic (OPV) cells have attracted attention because of their ease of fabrication and potential for low-cost production. Formation of monolayers by self-assembly at electrode surfaces has been widely used in recent years. This book describes improvements in OPV performance by fine-tuning the work functions of indium-tin oxide using surface chemical modification with p-benzenesulfonyl chloride derivatives with different terminal groups in order to enhance the open-circuit voltage. In order to decrease the work function of the Al electrode, a thin layer (ca. 10 nm) of Alq3 or bathocuproine (BCP) was deposited in between buckminsterfullerene (C60) and Al. The book also describes the further enhancement in Voc, lithium deposition on Al using lithium benzoate was attempted to decrease the work function of the Al electrode. The mechanism for improvements by enhanced Voc in OPVs has been discussed in detail.
Autorenporträt
In 2009, she received Ph.D degree from Tokyo Institute of Technology in Japan. She is senior lecturer in the Department of Electronic System at the School of Power Engineering of the Mongolian University of Science and Technology in Mongolia. Currently she works on the improvement of performance of Organic Photovoltaic Cells.