Contemporary research on the area of printed electronics is described. The analysis showed the modern trends where several research areas are joining together with development sector of industry. The relevant materials, demands for final functional structures and feasible products were discussed. The report was published in our journal for the graphic technology area to disseminate the knowledge about this promising application area.
F.01 Acquisition of new practical knowledge, information and skills
COBISS.SI-ID: 2173296The properties of screen-printed samples prepared by inks with flaky-shaped particles were evaluated. The mesh geometry and size of particles were varied together with the influence of substrate. The samples were analysed by optical, spectroscopic and microscopic methods. The study is important to understand the conductivity of lines printed with silver-based ink in relation on printing parameters.
D.10 Educational activities
COBISS.SI-ID: 2329968Screen-printing of antennae for RFIT tag was analysed. Conductive silver-flaky based printing ink was applied. The influence of printing parameters on functional properties of the printed product were analysed by different methods.
D.10 Educational activities
COBISS.SI-ID: 2186608Photobiological safety of lamps dedicated to technological processes was analysed according to the new Regulation on the protection of workers from risks related to exposure to artificial optical radiation sources. Possible exposure levels for skin and eyes were calculated. The protection ability of some protective equipment was analysed. This research is important for safely working in all processes applying radiation technologies. The work was presented on the consultation workshop of lighting community in our country.
F.18 Transfer of new know-how to direct users (seminars, fora, conferences)
COBISS.SI-ID: 1704807The possibility of fast in-situ control of printed electronic products applying image analysis was analysed. Printability criteria were obtained from connection between electrical properties with geometry of samples. Te geometry is controlled applying automatic image captured on printing equipment by image analysis. The possibilities for applying this procedure for printability evaluation of printed conductive lines were analysed.
B.03 Paper at an international scientific conference
COBISS.SI-ID: 2215280