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| Pb2+在不同锰氧化度水钠锰矿表面配位形态的EXAFS研究 | |
| 引用本文: | 赵巍,谭文峰,冯雄汉,刘凡,谢亚宁,谢治.Pb2+在不同锰氧化度水钠锰矿表面配位形态的EXAFS研究[J].土壤学报,2011,48(1):28-38. |
| 作者姓名: | 赵巍 谭文峰 冯雄汉 刘凡 谢亚宁 谢治 |
| 作者单位: | 1. 华中农业大学农业部亚热带农业资源与环境重点开放实验室,武汉,430070;中国科学院水利部水土保持研究所黄土高原土壤侵蚀与旱地农业国家重点实验室,陕西杨凌,712100 2. 华中农业大学农业部亚热带农业资源与环境重点开放实验室,武汉,430070 3. 中国科学院高能物理研究所同步辐射室,北京,100039 4. 中国科学技术大学国家同步辐射实验室,合肥,230029 |
| 摘 要: | 采用X-射线吸收精细结构光谱(XAFS)研究了Pb2+在不同锰氧化度的水钠锰矿表面的吸附形态,通过比较其吸附形态的差异,进一步探讨Pb2+在水钠锰矿表面的吸附机理。结果表明,锰氧化度高的水钠锰矿对Pb2+的吸附容量较大。Pb2+邻近存在一个Pb-O配位壳层和两个Pb-Mn配位壳层,对于相同锰氧化度的水钠锰矿,当Pb2+吸附量低时(600 mmol kg-1),Pb-O配位壳层中的氧原子与Pb2+的配位数为3.1,与Pb2+的距离为0.227 nm,两个Pb-Mn配位壳层的锰原子与Pb2+的配位数分别为2.8、6.1,与Pb2+的距离分别为0.357、0.377 nm;当Pb2+的吸附量增大时(2 344 mmol kg-1),其配位环境发生畸变,拟合得到的Pb-O配位壳层中的氧原子与Pb2+的配位数减少为1.2,与Pb2+的距离为0.226 nm;两个Pb-Mn配位壳层的锰原子与Pb2+的配位数分别减少为1.0、2.8,与Pb2+的间距分别为0.356、0.375 nm。Pb2+在不同锰氧化度水钠锰矿表面的吸附形态基本相同,皆存在三种吸附形态,一是与八面体空位形成三齿共角配合物,二是与水钠锰矿层结构u轴方向层边面形成单齿共角配合物,三是与结构a或b轴方向层边面形成双齿共角配合物。 |
| 关 键 词: | 水钠锰矿 吸附 Pb2+ XAFS 吸附形态 |
| 收稿时间: | 2009/11/18 0:00:00 |
| 修稿时间: | 6/24/2010 9:28:54 AM |
Study with exafs of surface complexation of Pb2+ adsorbed on birnessites different in Mn oxidation |
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| Zhao Wei,Tan Wenfeng,Feng Xionghan,Liu Fan,Xie Yaning and Xie Zhi.Study with exafs of surface complexation of Pb2+ adsorbed on birnessites different in Mn oxidation[J].Acta Pedologica Sinica,2011,48(1):28-38. | |
| Authors: | Zhao Wei Tan Wenfeng Feng Xionghan Liu Fan Xie Yaning and Xie Zhi |
| Institution: | Northwest A & F University;Institute of Soil and Water Conservation, Chinese Academy of Sciences,Huazhong Agricultural University,Huazhong Agricultural University,Huazhong Agricultural University,Beijing Synchrotron Radiation Facility, Institute of High Energy Physics, Chinese Academy of Sciences,National Synchrotron Radiation Laboratory, University of Science and Technology of China |
| Abstract: | Adsorption patterns of Pb2+ on the surface of birnessites different in Mn oxidation were studied with an X-ray absorption fine structure (XAFS) spectroscopy and mechanism of the adsorption explored by comparing the patterns. Results show that birnessites high in Mn oxidation were high in Pb2+ adsorption capacity. Nearby a Pb2+ ion adsorbed on the surface of birnessite existed one Pb-O and two Pb-Mn shells. In birnessites the same in Mn oxidation, when Pb2+ adsorption was low (600 mmol/kg), the coordination number of oxygen atom and Pb2+ in the Pb-O shell was 3.1 and they were 0.227 nm apart, and the coordination number of Mn atom and Pb2+ in the two Pb-Mn shells was 2.8 and 6.1 and they were 0.357 and 0.377 nm apart, separately. When Pb2+ adsorption rose up to 2344 mmol/kg, the coordination environment distorted. According to the fitting, in the Pb-O shell, the coordination number of oxygen atom and Pb2+ decreased to 1.2, and the distance between the two was 0.226 nm, and in the two Pb-Mn shells, the coordination number of Mn and Pb2+ decreased to 1.0 and 2.8, separately, and the distances between the two was 0.356 and 0.375 nm, separately. In birnessites different in Mn oxidation, Pb2+ adsorption patterns were basically the same. The three adsorption patterns commonly found were single-corner-sharing complex formed on side surfaces of layers along u axis, double-corner-sharing complex formed on side surfaces of layers along a or b axis, and triple-corner-sharing complex formed with the octahedral vacant sites. The amount of Pb2+ adsorbed increased with increasing AOS in birnessite, which led to decrease in Pb2+ coordination number between Pb and O in Pb-O shell and Pb-Mn shells due to the distortion of the Pb2+ coordination environment. |
| Keywords: | Birnessite Pb2+ X-ray absorption fine structure Adsorption Surface complexation |
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