引用本文: | 钟 良1,2,侯 力1,刘传慧2,雷亚民3.纳米C60晶体表面化学镀镍工艺研究[J].中国表面工程,2011,24(1):66~68 |
| ZHONG Liang1,2, HOU Li1, LIU Chuan–hui2, LEI Ya–min3.Study on Preparation of Electro Less Nickel Plating on the Surface of Nano–C60 Crystals[J].China Surface Engineering,2011,24(1):66~68 |
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摘要: |
为了改善纳米C60晶体的在液体中的分散性能,并保持其自身的特异性能,采用化学镀的方法实现了纳米C60晶体表面金属化。研究了其镀覆工艺和配方,观察了镀镍层显微形貌,检测了其物质元素组成,并测定了其在液体中的Zeta电位。研究结果表明,表面金属化大大改善了其在液体中的分散性能,可提高其参与化学复合镀的能力。 |
关键词: 纳米晶体 C60 化学镀 分散性 zeta电位 |
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基金项目:四川省教育厅资助项目(09zd007);绵阳市科技局资助项目(10zd2102) |
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Study on Preparation of Electro Less Nickel Plating on the Surface of Nano–C60 Crystals |
ZHONG Liang1,2, HOU Li1, LIU Chuan–hui2, LEI Ya–min31,2,3
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1. School of Manufacturing Science and Engineering, Sichuan University;2. The Manufacturing Science and Engineering School, Southwest University of Science and Technology;3.Research Institute of Synthetic Crystals
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Abstract: |
In order to improve the nano–fullerene crystals’ dispersion, and keep itself excellent performances, the surface metallization was achieved by electro less nickel plating. The preparation of electro less was studied; the micro appearance was observed; the element composition was examined; the Zeta potential of the nano–fullerene crystals was detected. All the results showed that the way of surface metallization made the nano–fullerene crystals effectively disperse in liquid. It was favorable to improve its compatibility to the funcation of electro less composite plating. |
Key words: nano crystals fullerene electro less dispersion zeta potential |