Front-side metalization by means of flexographic printing

Energy Procedia

Volumn 8, Issue , 2011, Pages 581-586

  Frey, Michael ^a,b   Clement, Florian ^a   Dilfer, Stefan ^b   Erath, Denis ^a   Biro, Daniel ^a  

^a FRAUNHOFER INSTITUTE FOR SOLAR ENERGY SYSTEMS ISE   (Germany)

^b DARMSTADT UNIVERSITY OF TECHNOLOGY   (Germany)

Author keywords

Flexography; Front side; Metalization; Printing

Indexed keywords

EFFICIENCY; OFFSET PRINTING; PRESSES (MACHINE TOOLS); PRINTING; PRINTING PRESSES; SILICON; SILICON SOLAR CELLS; SOLAR CELLS;

FLEXOGRAPHIC PRINTING; FLEXOGRAPHY; FRONT-SIDE; HIGH THROUGHPUT TECHNOLOGY; INDUSTRIAL-SCALE PRODUCTION; MECHANICAL STRESS; METALIZATIONS; PRESS COMPONENTS;

SILICON WAFERS;

EID: 80052088047     PISSN: 18766102     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1016/j.egypro.2011.06.186     Document Type: Conference Paper

References (5)

1. D. Deganello, J.A. Cherry, D.T. Gethin, T.C. Claypole. patterning of micro-scale conductive networks using reel-to-reel flexographic printing. Thin Solid Films. 2010, Vol. 518, pp. 6113-6116.
2. Hwang, M.-I. et al. Fine and high aspect ratio front electrode formation for improving efficiency of the multicristalline silicon solar cells. Proceedings of the 25th EuPVSEC. 2010.
3. Kipphan, Helmut. Handbook of print media. Heidelberg : Springer, 2000. p. 416.
4. Hörteis, Matthias. Fine line printed contacts on silicon solar cells. [Dissertation]. Department of physics, University Konstanz : s.n., 2009. p. 65ff.
5. Mette, Ansgar. New Concepts for Frontside Metallization of Industrial Silicon Solar Cells. [Dissertation]. Faculty of applied sciences, Albert-Ludwigs-Universität Freiburg : s.n., 2007. pp. 45-46.