1) diamond like carbon shell
类金刚石空心微球
2) chemical vapor deposition
类球状微米金刚石聚晶
1.
The globe-like diamond microcrystalline-aggregates were fabricated by microwave plasma chemical vapor deposition(MPCVD) method.
在覆盖金属钛层的陶瓷上,利用微波等离子体化学气相沉积(MPCVD)法制备出类球状微米金刚石聚晶薄膜。
2.
Diamond films were generally deposited on the substrates by using chemical vapor deposition (CVD), introducing a hydrocarbon gas diluted with an amount of hydrogen gas.
在覆盖金属钛层的陶瓷上,采用微波等离子体化学气相沉积(MPCVD)法制备出类球状微米金刚石聚晶薄膜。
3) diamond-like carbon
类金刚石
1.
Research on electrochemical behaviors of diamond-like carbon film electrodes
类金刚石薄膜电极的电化学行为研究
2.
Under a static high magnetic field of 10 T, diamond-like carbon (DLC) nanocrystals and n-diamond particles have been synthesized at atmospheric pressure and 1100 ℃, with carbon black as carbon source and nanometer-sized iron as catalyst.
在直流恒稳强磁场 ( 10T)作用下 ,以纳米铁为催化剂 ,碳黑为碳源 ,在常压和 110 0℃下保温 10 0min成功地制备出了类金刚石和新金刚石 ,并用XRD ,TEM和Raman对制备的样品粉末进行表征 。
3.
In this paper, preparation of diamond-like carbon by electrolysis of organic solutions is discussed and the propeHies of diamond-like carbon films are analyzed.
本文讨论了电解有机溶液法制备类金刚石薄膜,对所得到的类金刚石薄膜的性质进行分析,并提出了初步的沉积机理。
4) DLC
类金刚石
1.
Thermal Stability of Magnetron Sputtered DLC;
磁控溅射类金刚石的热稳定性
2.
A Review of Deposition Processes of DLC Films;
类金刚石(DLC)膜的制备技术概况
3.
The structure of the diamond-like carbon(DLC) film is briefly discussed.
简要介绍了类金刚石膜的结构,综述了类金刚石膜的传统制备方法以及其制备方法的基本原理和优缺点,同时介绍了几种近年发展起来的新兴制备方法,与传统制备方法相比,它更能提高膜的沉积速率和质量。
5) diamond-like carbon(DLC)
类金刚石
1.
Laser damage behavior and LIDT of diamond-like carbon(DLC) films irradiated under different laser parameters were reviewed.
讨论激光辐照对类金刚石结构和性质的影响规律。
6) hollow metal microspheres
空心金属微球
1.
After coated hollow glass microspheres were suspended in an alkali solution to remove the glass,the thin shell hollow metal microspheres were synthesized,and then characterized by SEM,TEM,and XRD.
以空心玻璃微球作为模板,利用化学镀技术分别在模板表面沉积了一定厚度的铜和镍钴硼涂层,采用碱液溶解法去除模板,成功制备了具有薄壳结构的空心金属微球。
补充资料:可降解淀粉微球和生物降解白蛋白微球阻滞法
可降解淀粉微球和生物降解白蛋白微球阻滞法
介入放射学技术。介入性局部化疗之前,把二者注入靶动脉,可暂时减少动脉血流,再行化疗药物灌注,以减少血液冲刷,保持局部化疗药物浓度的技术。与其他中期和长期栓塞微球不同,DSM和BAM仅造成数十分钟的血流量减少,待其被降解后血流可恢复至以前水平。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条