| 1. | The x - ray diffraction data indicate that the cnx film structures are amorphous
在不锈钢片上的cnx薄膜,虽然没有剥落现象。 |
| 2. | ( 3 ) the study of carbon nitrogen bonds in the cnx film by ftir
( 3 )用傅里叶变换红外光谱仪,研究cnx薄膜中c和n的键合情况。 |
| 3. | The catalysis growth mechanism and morphologic structure of cnx nanotube are also discussed
本论文还对cn _ x纳米管的催化生长机制,形貌结构特征进行了探讨。 |
| 4. | An overview of the facilities , instruments and testers of preparation , testings and measurings was given
本文对cnx超硬薄膜的制备方法和设备,测试方法和手段及仪器设备进行了较为全面的介绍。 |
| 5. | At the same time , raman spectroscopy was used to studied the as - grown cnx nanotube . besides the d band , both g band and d * band depend on
利用cn 、纳米管中关于拉曼光谱的分析方法对其拉曼光谱进行了分 |
| 6. | On the basis of this work , the cnx nanotubes with " nested - cone " shape have been produced by thermal decomposition at 780 - 980 with nhb released from nh4cl as nitrogen source
在此实验基础上选用氯化铵释放出的氨气为氮源,制备出了“锥形嵌套"结构的cn _ x纳米管。 |
| 7. | The effect of temperature , the ratio of fe ( c5h5 ) / c2h8n2 as well as the types of catalysts on the yield and structure of cnx nanotubes have been studied
研究了温度、不同前驱液配比、不同金属催化剂在高温热解乙二胺制备cn _ x纳米管过程中对cn _ x纳米管生长和形貌的影响。 |
| 8. | The models of atom arrangment of networks of - c3n4 , the various preparations of - c3n4 thin film and their respective physical and chemical properties were detailed discussed
我们对cnx超硬薄膜的理论模型,各种制备cnx超硬薄膜的方法以及用相应方法得到的样品的物理化学性质进行了较为详细全面的介绍和论述。 |
| 9. | The structure tests showed that n2 partial pressure could change the percent of sp ^ c in cnx coatings the effects of cnx and dlc coatings on mouse fibroblasts and human endothelial cells were determined by scanning electron microscopy
研究发现,在其它条件一定的情况下,氮气分压对薄膜n含量的影响是至关重要的。随着n _ 2气分压的增大, cn膜中的n含量增加。 |
| 10. | Raman spectroscopic studies show that the intensities of the d with respect to g band and the widths ( fwhms ) of raman bands can represent the change of the cnx nanotube ' s crystallinity with the nitrogen incorporation
对cn _ x纳米管样品的拉曼光谱研究结果显示,拉曼光谱中d带和g带的相对强度、拉曼峰半高宽等信息可以反映由于氮原子掺杂所引起的纳米管结晶有序程度的变化。 |
