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Roux, F., Amtablian, S., Anton, M., Besnard, G., Bilhaut, L., Bommersbach, P., Braillon, J., Cayron, C., Disdier, A., Fournier, H., Garnier, J., Jannaud, A., Jouhannaud, J., Kaminski, A., Karst, N., Noel, S., Perraud, S., Poncelet, O., Raccurt, O., Rapisarda, D., Ricaud, A., Rouchon, D., Roumanie, M., Rouviere, E., Sicardy, O., Sonier, F., Tarasov, K., Tardif, F., Tomassini, M. & Villanova, J. (2013) Chalcopyrite thin-film solar cells by industry-compatible ink-based process. Sol. Energy Mater. Sol. Cells, 115 86–92.
Added by: Laurent Cournède (2016-03-10 21:23:30) |
| Type de référence: Article DOI: 10.1016/j.solmat.2013.03.029 Numéro d'identification (ISBN etc.): 0927-0248 Clé BibTeX: Roux2013 Voir tous les détails bibliographiques  |
Catégories: CESES Mots-clés: cigs, cis, cuinse2, Doctor blading, dodecanethiol, elemental metallic nanoparticles, Formulation, ink, monolayers, Non-vacuum, selenization, thiolate Créateurs: Amtablian, Anton, Besnard, Bilhaut, Bommersbach, Braillon, Cayron, Disdier, Fournier, Garnier, Jannaud, Jouhannaud, Kaminski, Karst, Noel, Perraud, Poncelet, Raccurt, Rapisarda, Ricaud, Rouchon, Roumanie, Rouviere, Roux, Sicardy, Sonier, Tarasov, Tardif, Tomassini, Villanova Collection: Sol. Energy Mater. Sol. Cells |
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We developed a new industry-compatible ink-based process to produce efficient chalcopyrite CuIn1-x GaxSe2 thin-film solar cells. Metallic In and Ga nanoparticles were produced by purely physical methods, using a low-cost and non-explosive solvent. The solvent acts as a protection against oxidation and can be removed without leaving carbon contamination. We formulated inks that can be safely coated in air by doctor blading. The precursors were converted into a functional absorber after annealing under Se vapors in a primary vacuum. This simple two-step process led to chalcopyrite CuIn1-xGaxSe2 thin-films with strong mechanical adhesion, and power conversion efficiency higher than 7\%. (C) 2013 Elsevier B.V. All rights reserved.
Added by: Laurent Cournède |