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Fu Wentong,Luo Bingkun. 1990. Adsorption of uranyl complex ions on hydrous titanium oxide (HTO)——Ⅱ. Infrared spectrum investigation. Acta Oceanologica Sinica, (1):91-96
Adsorption of uranyl complex ions on hydrous titanium oxide (HTO)——Ⅱ. Infrared spectrum investigation
Adsorption of uranyl complex ions on hydrous titanium oxide (HTO)——Ⅱ. Infrared spectrum investigation
Received:February 04, 1989  Revised:August 10, 1989
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Author NameAffiliation
Fu Wentong Third Institute of Oceanography, State Oceanic Administration, Xiamen, China 
Luo Bingkun Third Institute of Oceanography, State Oceanic Administration, Xiamen, China 
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Abstract:
      The i.r.spectra of Na4[UO2(CO3)3], Na[UO2(OH)3] and the surface species of uranium on HTO underthe condition of flowing natural seawater and concentrated seawater (NaCl-NaHCO3-U) were recorded, with the bands of uranyl of surface species obtained and the finding that iigands of surface species besides HTO are mainly water and OH, and there are some CO32- groups under the condition of natural seawater.Some relations between the complex properties and the j.r.spectroscopic characters for uranyl complexes were studied, and the transferred change quantity of surface complex was calculated.
Structure models for surface species of adsorption are herein presented and the mechanism for uranium adsorption is deduced.
中文摘要:
      The i.r.spectra of Na4[UO2(CO3)3], Na[UO2(OH)3] and the surface species of uranium on HTO underthe condition of flowing natural seawater and concentrated seawater (NaCl-NaHCO3-U) were recorded, with the bands of uranyl of surface species obtained and the finding that iigands of surface species besides HTO are mainly water and OH, and there are some CO32- groups under the condition of natural seawater.Some relations between the complex properties and the j.r.spectroscopic characters for uranyl complexes were studied, and the transferred change quantity of surface complex was calculated.
Structure models for surface species of adsorption are herein presented and the mechanism for uranium adsorption is deduced.
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