碳结构的强度来源于碳原子(想想金刚石)间强大的化学键。
The strength comes from the powerful chemical bonds that form between carbon atoms (think diamond).
可见,新金刚石是由FCC碳向金刚石结构过渡的中间态结构。
Therefore, we suggest that n-diamond is indeed an intermediate state between the FCC structure and diamond structure.
电子能带结构计算表明sc - C20为宽带隙(4.20eV)半导体型碳,并且随着压力升高带隙呈现增大的趋势,sc - C20带隙的大小及变化规律与金刚石相似。
Electronic band structure calculations show that sc-C20 is a semiconductor with wide band gap of 4.20 eV, and the gap increase with pressure, similar to that of diamond.
利用透射电镜、X射线光电子能谱及拉曼光谱等分析手段对该膜进行了显微结构分析,发现类金刚石膜是含有金刚石及其它碳相的混合碳膜。
Using TEM, XPS and Raman spectroscopy, we analysed the microstructure of the DLC films. It was found that DLC films were mixed carbon films containing diamond and other carbon phase.
利用透射电镜、X射线光电子能谱及拉曼光谱等分析手段对该膜进行了显微结构分析,发现类金刚石膜是含有金刚石及其它碳相的混合碳膜。
Using TEM, XPS and Raman spectroscopy, we analysed the microstructure of the DLC films. It was found that DLC films were mixed carbon films containing diamond and other carbon phase.
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