Combinatorial chemistry tactics had been used to review the thermoelectricInterleukin-11 receptor properties of sputtered thin movies from the system copper oxide scientific study (CuO) and indium oxide (In2O3). Seven hundred seventy thin film thermocouples or combinatorial library aspects had been simultaneously deposited, every by using a exceptional spatially dependent chemistry, dependant on the relative position in the thermocouples to each and every sputtering target. The resulting thermoelectric properties of every component were established coupled with electrical resistivity as being a perform of composition. Power dispersive spectroscopy was employed to recognize the composition of each thermo-element, and electron and X-ray diffraction were used to determine the degree of crystallinity and phases existing. Transmission electron microscopy was applied to characterize the microstructure of picked thermo-elements. A modify in indicator with the thermoelectric voltage was observed in the thermo-element containing 40.0 atomic percent indium, which suggests a change inside the dominant carrier form occurred, from p-type to n-type. Determined by this locating, the fabrication of thermoelectric p-n junctions applying the same base selleck chemical GABA Receptor inhibitorCu-In-O semiconductor appears possible.