Carbon deposition and catalytic ability of anodes are two important issues when using hydro-carbon fuels for solid oxide fuel cells. Nickel based anode (NiO/YSZ) shows a serious carbon deposition reported in recent research. Therefore, CuO is added to replace the NiO. In this study, three anode powders (100%Ni with 8YSZ, 50%Cu-50%Ni with 8YSZ and 100%Cu with 8YSZ) are prepared by powder mixing in well-dispersed slurry. A new approach to verify the effects of carbon deposition by measuring the permeability of the anodes are used in this study. C50N50Z shows a good catalytic ability and low coking rate for CH4. The conductivity of C50N50Z is 1503 Scm-1 at 650 oC. Another two functions of copper can be combined with this anode. Four copper-based metal and nickel wires (Cu, Cu11Ni, Cu-38Zn, Cu9Ni6Sn, Ni) are tested for their electric conductivity at room to high temperature. Due to a high electric conductivity, Cu is good enough to apply as a material for current collector. Five different thermocouples made from above wires are also aging in air for more than 100 h at 200 oC~650 oC. Because of sensibility and less drift (<5%) of thermopotential at 200 oC to 650 oC, three thermocouples Cu-Cu11Ni, Cu-Cu9Ni6Sn and Cu-Ni are suitable for intermediate-temperature SOFC as temperature sensors. Thus, triple function of Cu-based materials can be applied on anode side of SOFCs.