铜仁学院学报
銅仁學院學報
동인학원학보
Journal of Tongren University
2015年
4期
83-87
,共5页
金刚石大单晶%羰基镍粉%氮原子对%形成机制
金剛石大單晶%羰基鎳粉%氮原子對%形成機製
금강석대단정%탄기얼분%담원자대%형성궤제
diamond single crystal%carbonyl nickel powders%nitrogen atoms pairs%formation mechanism
在高温高压条件下,通过在传统的Fe64Ni36-C金刚石大单晶合成体系中添加羰基镍粉,研究了高氮浓度金刚石大单晶的合成.使用傅里叶红外光谱(FTIR)对典型的金刚石样品进行了测试,对其内部氮浓度含量进行了计算,并对金刚石内部氮原子对的形成机制进行了分析.
在高溫高壓條件下,通過在傳統的Fe64Ni36-C金剛石大單晶閤成體繫中添加羰基鎳粉,研究瞭高氮濃度金剛石大單晶的閤成.使用傅裏葉紅外光譜(FTIR)對典型的金剛石樣品進行瞭測試,對其內部氮濃度含量進行瞭計算,併對金剛石內部氮原子對的形成機製進行瞭分析.
재고온고압조건하,통과재전통적Fe64Ni36-C금강석대단정합성체계중첨가탄기얼분,연구료고담농도금강석대단정적합성.사용부리협홍외광보(FTIR)대전형적금강석양품진행료측시,대기내부담농도함량진행료계산,병대금강석내부담원자대적형성궤제진행료분석.
The synthesis of high nitrogen concentration diamond single crystal under higher pressure and higher temperature by the addition of carbonyl nickel powders in the traditional Fe64Ni36-C system was investigated. The typical diamond samples were measured by Fourier Infrared Spectra (FTIR). Furthermore, the nitrogen concentrations of the diamond crystals were valuated and the formation mechanism of nitrogen atoms pairs in diamond structures were analyzed, respectively.
