Study of boron nitride by electron energy-loss spectroscopy

Electron energy-loss spectra of -rhombohedral boron ( -r-B) were obtained from perfect crystalline areas of 180 nm diameter. The onset of the spectral intensity was observed at 2.4 eV (band gap energy). The volume plasmon peak due to the sp valence electrons is at 24.5 eV with a full width at half m

Technology of low-pressure syste ms-establishment of optimum conditions to obtain low degassing rates on 316 L stainless steel by heat treatments.

The stoichiometry of a set of commercial and laboratorysynthesized Be-B-bearing materials was determined by parallel electron energy-loss spectroscopy (PEELS). The Be and B K edges are well separated in energy, allowing easy determination of the elemental ratios. PEELS analyses of materials with rep

A novel synthetic material -ferromagnetic carbon (FMC) -produced in polyacrylonitrile pyrolitic decomposition has been studied via Auger electron spectroscopy (AES) and electron energy-loss spectroscopy (EELS). It has been stated, that the main impurities in FMC are nitrogen and oxygen; their conten