EPITAXIAL NUCLEATION, GROWTH AND CHARACTERIZATION OF HIGHLY ORIENTED,(100)-TEXTURED DIAMOND FILMS ON SILICON

Growth of highly oriented, (100)-textured diamond films has been achie ved through a multistep growth process which included bias-enhanced nu cleation and textured growth. The grain misorientation was analyzed by polar X-ray diffraction, electron diffraction and analysis of the dis location spacing at a small-angle grain boundary. The electronic prope rties of simultaneously deposited, randomly oriented polycrystalline; highly oriented, (100) textured, and single-crystal homoepitaxial diam ond films were compared to assess the role of grain boundaries. Calcul ations suggest that the highly oriented, (100)-textured film possessed a lower density of interfacial traps by about 50% compared with rando mly oriented polycrystalline diamond film. This reduction in interfaci al traps in the highly oriented, (100)-textured film could account for the mobility improvement by a factor of 3 over the mobility of the po lycrystalline film. The homoepitaxial film possessed a mobility three times that of the highly oriented, (100)-textured film, and it appeare d that additional reductions in trap density should provide additional opportunities for improved mobility in highly oriented, (100)-texture d films.