@article{Szwagierczak2023, author = {Dorota Szwagierczak and Beata Synkiewicz-Musialska and Jan Kulawik and Elżbieta Czerwińska and Norbert Pałka}, title = {Ultra-low temperature cofired ceramics based on Li2WO4 as perspective substrate materials for terahertz frequencies}, year = {2023}, journal = {Journal of Advanced Ceramics}, volume = {12}, number = {3}, pages = {526-538}, keywords = {dielectric properties, tape casting, Li2WO4, ultra-low temperature cofired ceramics (ULTCC), terahertz frequency range}, url = {https://www.sciopen.com/article/10.26599/JAC.2023.9220701}, doi = {10.26599/JAC.2023.9220701}, abstract = {With the development of low dielectric permittivity materials having an ultra-low sintering temperature, testing their dielectric properties at terahertz frequencies suitable for 6G communication systems and implementation of the fabricated materials in ultra-low temperature cofired ceramics (ULTCC) were the main goals of the research. Lithium tungstate Li2WO4 was synthesized by a solid-state reaction and used for the preparation of green tapes and test structures with cofired internal conductive layers, which are destined for substrates of microwave and submillimeter wave circuits. Sintering behavior, thermal effects, and mass changes of the green tapes during heating were studied using a hot-stage microscope, differential thermal analysis, and thermogravimetry. A single-phase composition was revealed for being undoped and doped with AlF3–CaB4O7 ceramics. The impact of frequency, temperature, the addition of AlF3–CaB4O7 and CuBi2O4 dopants, and sintering temperature was the subject of in-depth characterization of dielectric properties in a terahertz region. A glass-free composition, ultra-low sintering temperature of 590–630 ℃, low roughness of the green tapes, dense microstructure, compatibility with Ag conductors, low and stable dielectric permittivity of 5.0–5.8 in a broad range of 0.2–2 THz, and low dielectric loss of 0.008–0.01 at 1 THz are the main advantages of the developed ULTCC substrates.} }