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Printed DSSC Solar Cell with UV Cured Barrier Layer
Authors: Syrový Tomáš | Hatala Michal | Držková Markéta | Syrová Lucie
Year: 2013
Type of publication: článek ve sborníku
Name of source: Advances in Printing and Media Technology
Publisher name: IARIGAI (International Association of Research Organizations for the Information, Media and Graphic Arts Industries)
Place: Darmstadt
Page from-to: 41-47
Titles:
Language Name Abstract Keywords
cze Tištěné DSSC články s bariérovou vrstvou založenou na UV zářením tvrditelných systémech Práce je zaměřena na přípravu DSSc článků pomocí tiskové technologie sítotisk. V rámci experimentu bylo inovativně použito UV zářením tvrditelného systému pro enkapsulaci solárního článku. DSSC;sítotisk;bariérová vrstvy;enkapsulace;UV zářením tvrditelná tisková formulace
eng Printed DSSC Solar Cell with UV Cured Barrier Layer The aim of this study was to fabricate DSSC solar cell by screen printing technique. Materials used for printing of functional layers have been selected based on a literature research. Several parameters of DSSC cell were variated ? materials and structures of selected layers. There are presented results for selected combinations. For photoelectrode layer were used custom-formulated printing pastes containing TiO2 with two different mean sizes (21 nm and 180 nm) of primary particles; counter electrodes were printed using screen printing paste, the first consisting of Pt precursor H2PtCl6 , the second one was carbon screen printing paste; the electrolytes were based on redox couple I-/I3- and as a solvent was used acetonitrile and ethylene glycol, respectively; the bus bars were printed by silver screen printing paste; the glass substrate with predeposited ITO layer was used as printing substrate for photoelectrode and counter electrode. The innovative approach is presented by using UV curable ink for making of the barrier layer. The printed functional layers, their variants and other materials used were examined by several instrumental techniques as an optical microscopy, SEM, UV/VIS spectroscopy, mechanical profilometry, etc. The relative comparison of output characteristics of DSSC solar cells was performed under Philips MASTER TL-D 90 De Luxe light source. The efficiency of selected DSSC cells was estimated under Xenon lamp of Q-SUN Xe-1-B device. Estimated results are presented and discussed. DSSC;screen-printing;barrier layer;UV curable ink