Micro gas chromatography (μGC) could be widely used in many areas, including homecare, environment or air-pollution monitoring, and medical diagnosis. According to recent researches, a μGC can provide a non-invasive and real-time diagnosis for early stage lung cancer detection by analyzing human exhaled air. In this thesis, we proposed a novel microfabricated separation column (μSC) for μGC. With one photomask in microelectromechanical systems(MEMS)-based -fabrication processes and the developed chemical replacement reaction, we presented a μSC with a thin gold film within the microfluidic channel as a self-heated element. The novel μSC not only provided highly efficient on thermal performance, but it also decreased the development time and cost in the fabrication process comparing to previous research results. With the 1.6Ω inner gold film heater, the 1-m μSC can be heated to 130℃ rapidly by applying a constant electrical power of 10 W with a heating rate of 1℃/s. Four volatile organic compounds (VOCs), benzene, toluene, m-xylene, and octane are successfully separated and detected by a flame ionization detector (FID) with DB-1 stationary phase using the proposed μSC.