The surface acoustic wave (SAW) devices have been widely used in wireless applications, such as television, mobile communications, and radar systems, etc. SAW device is extremely sensitive to external loading on its delay line area coated with chemically absorbing film, which makes it suitable for high sensitivity chemical and bio sensing (with detection limit down to sub ppm range). The goal of the research is develop high sensitivity and high selectivity device of SAW-MIP technology for air sensing environment. The work in this thesis focusing on design and fabricate a SAW device which suitable for SAW-MIP sensing device. In order to develop the high quality device, we try to arrange of several different constructions and discuss the sound wave effect by various parameters. In chemical and bio sensing based on SAW technology, conventional measurements by external RF circuits can not provide chemical information on the absorbed specimen in the chemical thin film. In order to overcome this shortage in the characterization of such a device, we have designed a novel measurement device, which combines the electronic measurement on the resonance frequency shifting and the spectrum measurement in the IR range. The novel design of our measurement platform allows spectro-microscopic and electronic measurements of the SAW sensors under the same chemical environment. The detection limit of the chemical specimen of the FT-IR spectro-microscope is comparable to that of electronic measurement. In this regard, the spectro-microscopic FT-IR technique provides detailed information for the characterization of the electronic signals. The results of thesis provide the important opening for theory and technology of SAW-MIP research.