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以Cu(NO为原料,采用络合沉淀法合成了纳米级CuO粉体,并对产品结构性能进行了表征.探讨了氨水,柠檬酸,乙二胺三种不同络合剂对粉体粒径的影响,三种络合剂得到粉体平均粒径在40~60nm之间,粉体的粒径随着络和物稳定性的增加而增大.获得了以氨水为络合剂制备纳米氧化铜粉体的最佳工艺条件,以氨水为络合剂所得CuO粉体平均粒径40nm,分散性好、收率高.

Nanophase CuO powders were made from Cu(NO3)2 by the complexing-precipitate method, and the effects of complexing agent on particle sizes studied. The results show that CuO powders are smaller in size and slightly aggregate. The sample particles thus obtained are spherical and their average particle sizes are between 40~60nm. With NH3·H2O as the complexing agent, the best reaction conditions for preparing nanophase CuO are that the reaction temperature is 30℃ and the molar ratio of Cu(NO3)2 to NaOH is 1:3.

参考文献

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[2] 贾殿赠, 俞建群, 夏熙. 科学通报, 1998, 43: 173--175.
[3] 华东理工大学技术物理研究所编. 超细颗粒制备科学与技术. 上海: 华东理?工大学技术物理研究所出版社, 1996. 113--115.
[4] 裘式纶, 瞿庆洲, 肖丰收, 等. 化学研究与应用. 1998, 10 (4): 331--341.
[5] 张立德、牟季美. 纳米材料学. 沈阳:沈阳辽宁科学技术出版社, 1994. 76--92.
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