Wojcik, SzymonSzymonWojcikGierczak, MirosławMirosławGierczakReinhardt, KathrinKathrinReinhardtKörner, StefanStefanKörnerDziedzic, AndrzejAndrzejDziedzic2024-08-132024-08-132024https://publica.fraunhofer.de/handle/publica/47313910.1109/ISSE61612.2024.106038842-s2.0-85200438171Electrical and thermoelectric properties of thickfilm planar thermoelectric microgenerators made on the basis of constantan-, copper- and silver-based inks are investigated and analyzed in a wide temperature range from 250 to 400 K. The Seebeck coefficient for both systems, CuNi-Ag and CuNiCu, has similar values and increases as a function of temperature. This parameter is about 3-5 μV/K higher than the Seebeck coefficient value for a T-type wire thermocouple (copper-constantan).enenergy harvestingthermoelectric microgeneratorthermoelectricitythick filmconference paper