【開催終了】第43回 有機エレクトロニクス研究センター講演会開催について(8月29日)
2012年08月31日 掲載
8月29日(水)午後3時より、有機エレクトロニクス研究センター4階 会議室にて、第43回有機エレクトロニクス研究センター講演会を開催しました。今回は、Singapore University of Technology and DesignからWei Lek KWAN先生を講師としてお招きし、「Transparent organic photovoltaic – (1) Spray coated PEDOT:PSS as transparent anode for transparent OPV, (2) Improving Voc of NIR dyes by side-chain engineering, is it possible?」と題し、講演をして頂きました。
会場には、30名以上の研究者や学生の方々が集まり、盛況のうちに終了しました。
当日の会場の様子 | Dr. Wei Lek KWAN, Singapore University of Technology and Design |
【開催終了】第43回 有機エレクトロニクス研究センター講演会開催について(8月29日)
2012年08月17日 掲載
日時 | 8月29日(水) 午後3時~4時30分 |
会場 | 有機エレクトロニクス研究センター(10号館)4階 会議室 |
講師 | Dr. Wei Lek KWAN, Singapore University of Technology and Design |
演題 | "Transparent organic photovoltaic – (1) Spray coated PEDOT:PSS as transparent anode for transparent OPV, (2) Improving Voc of NIR dyes by side-chain engineering, is it possible?" |
There will be 2 parts to the talk, both surrounding a central theme of transparent organic photovoltaic.
In the first part of the talk, I will discuss the issues of coating PEDOT:PSS on a hydrophobic P3HT:PCBM surface. As high conductivity PEDOT:PSS is used as a transparent anode, the thickness and roughness has to be reduced for high transparency. By optimizing the wettability and drying time of the PEDOT:PSS, we were able to attain a spray coated transparent anode without compromising on device performance. A transparent OPV device with close to 60% transparency is achieved.
In the second part of my talk, I will discuss the possibility of using side-chain to improve the Voc of the OPV device. In transparent OPV, NIR dyes are often used due to its transparency in the visible range and strong absorption in the NIR region. Since the LUMO-HOMO gap is usually low for such dyes, the Voc is often very small, thus compromising the device efficiency. Recently, it was discovered that the Voc does not only depends on the difference between the HOMO level of the donor and LUMO level of the acceptor, but also bimolecular recombination and charge transfer states. I will report the use of a novel side-chain to reduce bimolecular recombination, thus improving the Voc of the device.