This thesis focuses on the absorption of CO2 in infrared region and improving the emission efficiency of waveguide thermal emitter. The absorption wavelengths of CO2 at 2.7 μm and 4.26 μm have been discovered. And relation between the emission wavelength of WTE and thickness of oxide layer is precisely defined. The emission efficiency of infrared thermal is affected significantly by geometry of electrode. The winding current path will cause current and the heat flux accumulates at the corner of the pattern to generate more heat source and result in more uniform temperature in the heat source. And the higher L/W ratio causes the higher conversion efficiency, and larger area will cause more heat source. Base on the absorption coefficient of CO2 in 4.26 μm measured to be about 0.32~0.33 cm-1, a NDIR system to measure the concentration of CO2 is built.