Low band gap (X-DADAD)n type copolymers for stable and efficient bulk heterojunction organic solar cells Alexander V. Akkuratov, Iliya E. Kuznetsov, Irina V. Klimovich, Diana K. Susarova, Fedor A. Prudnov, Olga A. Mukhac

First Page		Document Content
Date: 2016-03-03 11:35:13 Solar cells Energy Chemistry Nature Fullerenes Energy conversion Semiconductor devices Organic solar cell Phenyl-C61-butyric acid methyl ester Photovoltaics Polymer Polymer solar cell		Low band gap (X-DADAD)n type copolymers for stable and efficient bulk heterojunction organic solar cells Alexander V. Akkuratov, Iliya E. Kuznetsov, Irina V. Klimovich, Diana K. Susarova, Fedor A. Prudnov, Olga A. Mukhac Add to Reading List Source URL: www.physchem.msu.ru Download Document from Source Website File Size: 70,00 KB Share Document on Facebook

	Metal-oxide based charge extraction and recombination layers for organic solar cells Thomas Riedl Institute of Electronic Devices, University of Wuppertal, Germany Substantial progress in the field of organic solar cell DocID: 1uQHc - View Document
	PDF Document DocID: 1rqfI - View Document
	Tuesday, September 27 9:00-12:00 Plenary (Main Convention Hall) 1F 101 2F Convention Hall 200 DocID: 1r1Bc - View Document
	Low band gap (X-DADAD)n type copolymers for stable and efficient bulk heterojunction organic solar cells Alexander V. Akkuratov, Iliya E. Kuznetsov, Irina V. Klimovich, Diana K. Susarova, Fedor A. Prudnov, Olga A. Mukhac DocID: 1qRrF - View Document
	Interface-Engineered Materials For HighEfficiency All-Organics Solar Cells Axel Enders and Peter Dowben Department of Physics and Astronomy Photovoltaics DocID: 1qP0v - View Document