Use of microfibrillated cellulose and dendritic copper for the elaboration of conductive films from water- and ethanol-based dispersions |
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Authors: | Olivier Pras Davide Beneventi Didier Chaussy Paul Piette Sandra Tapin-Lingua |
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Affiliation: | 1. Grenoble Institute of Technology, UMR 5518 CNRS-Grenoble-INP, Domaine Universitaire, 461 rue de la Papeterie, BP 65, 38402, St. Martin d’Hères, France 2. Centre Technique du Papier (CTP), DU, BP 251, 38044, Grenoble Cedex 9, France 3. FCBA-P?le Nouveaux Matériaux, Domaine Universitaire, CS 90251, 38044, Grenoble Cedex 9, France
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Abstract: | In this study, microfibrillated cellulose (MFC) and dendritic copper were used as binder and conductive phase for the elaboration of self-standing conductive films and coatings. A filtration technique was used to prepare MFC/Cu films from particle dispersions in water and ethanol. In aqueous slurries copper oxidized and an additional corona treatment or the use of zinc particles as sacrificial anode were necessary to obtain films with conductivities ranging from 70 to 2500 S m?1, respectively. In ethanol-based MFC/Cu slurries, copper was subjected to limited oxidation. However, the low packing density of conductive particles (below the percolation threshold) led to resistive films which, after densification by calendering, displayed extremely high conductivities, up to 70000 S m?1. Aqueous MFC/Cu slurries were successfully used for the deposition of conductive coatings on copy paper by Mayer rod coating and screen printing, which were subsequently treated by corona discharge and calendering. The obtained coatings displayed intermediate conductivity (i.e. 95 and 570 S m?1 for rod coating and screen printing, respectively), which can be further increased using zinc particles or ethanol-based formulations. |
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