Authors
Thomas R Andersen, Henrik F Dam, Markus Hösel, Martin Helgesen, Jon E Carlé, Thue T Larsen-Olsen, Suren A Gevorgyan, Jens W Andreasen, Jens Adams, Ning Li, Florian Machui, George D Spyropoulos, Tayebeh Ameri, Noëlla Lemaître, Mathilde Legros, Arnulf Scheel, Detlef Gaiser, Kilian Kreul, Stephane Berny, Owen R Lozman, Sirpa Nordman, Marja Välimäki, Marja Vilkman, Roar R Søndergaard, Mikkel Jørgensen, Christoph J Brabec, Frederik C Krebs
Publication date
2014
Journal
Energy & Environmental Science
Volume
7
Issue
9
Pages
2925-2933
Publisher
Royal Society of Chemistry
Description
Inline printing and coating methods have been demonstrated to enable a high technical yield of fully roll-to-roll processed polymer tandem solar cell modules. We demonstrate generality by employing different material sets and also describe how the ink systems must be carefully co-developed in order to reach the ambitious objective of a fully printed and coated 14-layer flexible tandem solar cell stack. The roll-to-roll methodologies involved are flexographic printing, rotary screen printing, slot-die coating, X-ray scattering, electrical testing and UV-lamination. Their combination enables the manufacture of completely functional devices in exceptionally high yields. Critical to the ink and process development is a carefully chosen technology transfer to industry method where first a roll coater is employed enabling contactless stack build up, followed by a small roll-to-roll coater fitted to an X-ray machine enabling in situ …
Scholar articles
TR Andersen, HF Dam, M Hösel, M Helgesen, JE Carlé… - Energy & Environmental Science, 2014