Chemical vapor deposition and characterization of diamond films grown via microwave plasma enhanced CVD

Diamond is an excellent candidate material for use in electronic and wear resistant coating applications due to its hardness, strength, thermal conductivity, high electron drift velocity, chemical and thermal stability, radiation hardness and optical transmission. Electronic devices of particular interest include high power/high frequency devices and devices to be utilized in high temperature, chemically harsh and/or high radiation flux environments. The recent development of techniques for growth of crystalline diamond films using low pressure gases has created the potential for growing thin films for such electronic devices or wear resistant coatings. Diamond thin films grown on silicon by microwave plasma enhanced chemical vapor deposition were characterized by a variety of materials analysis techniques including second ion mass spectroscopy (SIMS), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and infrared spectroscopy (IR). The authors report the characterization of these polycrystalline diamond films and discuss the impurities, bonding, and structure of the as-grown diamond films

Duke Scholars

Author Jeffrey Glass Electrical and Computer Engineering