引用本文:
Li GU, Yuan Liang WANG, Li Ling TANG, Jiu Jin ZHU, Jun Han WU. Preparation of La-Ti Composite Oxide Nanocrystal and Examination of Their Surface Topography with Atomic Force Microscope[J]. Chinese Chemical Letters,
2003, 14(4): 429-432.
Citation: Li GU, Yuan Liang WANG, Li Ling TANG, Jiu Jin ZHU, Jun Han WU. Preparation of La-Ti Composite Oxide Nanocrystal and Examination of Their Surface Topography with Atomic Force Microscope[J]. Chinese Chemical Letters, 2003, 14(4): 429-432.
Citation: Li GU, Yuan Liang WANG, Li Ling TANG, Jiu Jin ZHU, Jun Han WU. Preparation of La-Ti Composite Oxide Nanocrystal and Examination of Their Surface Topography with Atomic Force Microscope[J]. Chinese Chemical Letters, 2003, 14(4): 429-432.
Preparation of La-Ti Composite Oxide Nanocrystal and Examination of Their Surface Topography with Atomic Force Microscope
摘要:
With sol-gel method, nanometer La-Ti composite oxide was successfully prepared at a low temperature (750~800℃) using polyethylene glycol as dispersant. By means of atomic force microscope, the surface pattern, particle size distribution, and specific surface area were studied. The compound particle surface appears as a smooth sheet, the mean size of the compound is 25.38 nm. On the specific surface, the particle erects at a height of 4.69 nm. The surface area is 58.90 nm2. The La-Ti composite oxide nanocrystal prefers to narrow and even particle size distribution and the homogeneity of surface topography.
English
Preparation of La-Ti Composite Oxide Nanocrystal and Examination of Their Surface Topography with Atomic Force Microscope
Abstract:
With sol-gel method, nanometer La-Ti composite oxide was successfully prepared at a low temperature (750~800℃) using polyethylene glycol as dispersant. By means of atomic force microscope, the surface pattern, particle size distribution, and specific surface area were studied. The compound particle surface appears as a smooth sheet, the mean size of the compound is 25.38 nm. On the specific surface, the particle erects at a height of 4.69 nm. The surface area is 58.90 nm2. The La-Ti composite oxide nanocrystal prefers to narrow and even particle size distribution and the homogeneity of surface topography.
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Key words:
- La-Ti composite oxide
- / nanocrystal
- / surface pattern
- / atomic force microscope
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