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zhigang985(½ð±Ò+2): 2011-01-18 10:37:00
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6Â¥2011-01-18 00:08:48
sltmac
ÈÙÓþ°æÖ÷ (ÖªÃû×÷¼Ò)
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zhigang985(½ð±Ò+10, ·ÒëEPI+1): 2011-01-18 10:36:45
| When W=20,the sample was composed of CuS microsphere particles,the surface of microsphere particles were formed by a lot of thin and smoothly nanoslices which paradiameter around 1 micron but also the sample dispersed uniformly and there was no coacervation between the particles.When W increased to 30 or 40,there was no significant change about the sample¡¯s morphology, nevertheless,the diameters changed into 2 micron and 3 micron,respectively.The results indicated that with the increasing value of W,the size of CuS increased gently but not indefinitely showed linear relationship. |
3Â¥2011-01-17 20:01:24
Risingstar
Ìú¸Ëľ³æ (ÖøÃûдÊÖ)
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zhigang985(½ð±Ò+15): 2011-01-18 10:36:52
|
²»ÈçÕâÑù°É When W = 20, the samples consisted of hedgehog-like CuS microspheres, the surface of which was structured with a large number of thin, smooth nano-sheets. The microspheres were 1 micron in diameter, and homogeneously distributed with no obvious aggregation. When W increased to 30 and 40, no significant change in the morphology of the samples was observed, but the diameter shifted to 2 microns and 3 microns, respectively. It can be seen from the experiment results that, the increase in the value of W leads to an increase in the size of CuS, but not necessarily in a certain proportional relationship. ÇëLZÕå×ã¡ |
4Â¥2011-01-17 23:54:49
Risingstar
Ìú¸Ëľ³æ (ÖøÃûдÊÖ)
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- ÔÚÏß: 301.7Сʱ
- ³æºÅ: 912351
5Â¥2011-01-17 23:59:54













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