ABSTRACT
Graphene on diamond has been attracting considerable attention due to the unique and highly beneficial features of this heterostructure for a range of electronic applications. Here, ultrahigh-vacuum X-ray photoelectron spectroscopy is used for in situ analysis of the temperature dependence of the Ni-assisted thermally induced graphitization process of intrinsic nanocrystalline diamond thin films (65 nm thickness, 50-80 nm grain size) on silicon wafer substrates. Three major stages of diamond film transformation are determined from XPS during the thermal annealing in the temperature range from 300 °C to 800 °C. Heating from 300 °C causes removal of oxygen; formation of the disordered carbon phase is observed at 400 °C; the disordered carbon progressively transforms to graphitic phase whereas the diamond phase disappears from the surface from 500 °C. In the well-controllable temperature regime between 600 °C and 700 °C, the nanocrystalline diamond thin film is mainly preserved, while graphitic layers form on the surface as the predominant carbon phase. Moreover, the graphitization is facilitated by a disordered carbon interlayer that inherently forms between diamond and graphitic layers by Ni catalyst. Thus, the process results in formation of a multilayer heterostructure on silicon substrate.
ABSTRACT
Experience of performance of a pulmonary autograft operation (PAO, оperation of Ross) was analyzed, results were estimated, the ways of overcoming a procedure conduction problems were determined. Remote result was investigated in 151 patients: the aortal valve stenosis was diagnosed in 99 (65.6%) patients, insufficiency - in 42 (27.8%), combined aortal valve failure - in 10 (6.6%). Hospital lethality have constituted 3.6%, and a general one 7.9%. Reoperations were performed in 52 patients. PAO constitutes one of surgical procedures for the aortal valve failure in children of different age. Improvement of surgical technique and application of a new procedures have promoted improvement of the investigation results lethality lowering from 15.1 to 0.8%. Application of surgical modifications with the aortal radix strengthening have reduced the reoperations on neaortal valve risk trustworthy.