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Energy / Polyfluorene / Phenyl-C61-butyric acid methyl ester / Thin film solar cell / Organic solar cell / Organic semiconductor / Band gap / Solar panel / Heterojunction / Solar cells / Chemistry / Electronics


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City

Müller / Weinheim / Zerza / Zhang / London / Meissner / /

Company

WILEY-VCH Verlag GmbH & Co. KGaA / Imperial College Press / Ge / CV / EVS / /

Country

United States / /

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Event

Business Partnership / /

Facility

Materials Science Broida Hall / University of California / /

IndustryTerm

energy levels / energy-conversion efficiencies / bicontinuous interpenetrating network / metal / carrier mobilities / substantial energy-conversion efficiencies / bulk-heterojunction systems / calculated energy-conversion efficiency / energy level / sandwich devices / energy-level differences / printing process / energy-conversion efficiency / bandgap energy / bulkheterojunction devices / photovoltaic technology / individual device / schematic energy diagram / portable electronics / metal electrodes / charge-carrier lifetime / charge-carrier mobility / aqueous solution / energy difference / chemical structures / intensive search / roll-to-roll manufacturing / energy / /

OperatingSystem

Fermi / /

Organization

University of California at Santa Barbara / A. J. Heeger Department of Materials Science Broida Hall / /

Person

D. Beljonne / V / Markus C. Scharber / Patrick Denk / Johannes Kepler Universität / Markus Koppe / M. C. Scharber / A. J. Heeger / J. A. Koster / V / Christoph Waldauf / David Mühlbacher / Alan J. Heeger / C. J. Brabec Konarka Austria Altenbergerstrasse / /

Position

conductor / Cao / Appl / /

ProvinceOrState

South Carolina / Nova Scotia / Delaware / California / /

Technology

semiconductors / spectroscopy / all alternative technologies / recombination / OPV technologies / /

URL

www.advmat.de / /

SocialTag