Optimization of the electrical conductivity of copper phthalocyanine for the formulation of a conductive ink applicable by screen printing on textile materials

3^rd International Webinar on Advanced Materials

December 13, 2021 | Webinar

Mohamed Tahiri

Hassan II University, Morocco

ScientificTracks Abstracts: J Mater Eng Appl

Abstract :

We report results on the conductivity of conductive ink based on copper phthalocyanine, which contain different organic solvents, i.e., dimethyl sulfoxide (DMSO) or THF, and with different percentage of copper phthalocyanine. Conductive inks were prepared from the copper phtaloyanine by dispersion of the conductive pigment in a screen printing paste. A Variety of patterns have been developed with different percentages of CuPc on a cotton substrate using the screen printing technique. Simultaneously, the presence of solvent residue in the printed pattern also resulted in poor control of the morphology and conductivity of the pattern. The solvent effect on copper phtalocyanine dispersion’s was studied by UV visible spectroscopy and the minimum sheet resistance of printed circuit board was reached at about 3% of CuPc in THF and DMSO with 1 Mcm and 1.8 Mcm respectively.

Biography :

Mohamed Tahiri is currently a full professor of Chemistry, water, Bio-energy and environment engineering, Chemical Risks, Climate changes and Air Pollution, at Sciences Faculty of Hassan II University of Casablanca. Since January 2010, he’s Chair holder of University Chair on Innovation. As part of his supported role, Mohamed Tahiri has received extensive training in Europe on Innovation, technology Transfer, Intellectual Property Rights and innovation Management.