以硝酸钙和硅酸钠为原料,采用模板法制备了介孔硅酸钙.探讨了不同模板剂(十二烷基磺酸钠、十六烷基三甲溴化铵、P123和十六烷基三甲溴化铵?四甲基氢氧化胺)对介孔硅酸钙孔径和表面形貌的影响,通过X射线衍射( XRD)、扫描电镜( SEM)、BET表面分析和红外光谱( FT?IR)等对其结构进行了表征,考察其对含Pb2+和Cu2+模拟废水的吸附性能和解吸再生性能,并与活性炭的吸附性能进行比较.结果表明,采用十六烷基三甲溴化铵模板剂为模板合成的硅酸钙具有介孔结构,为狭缝孔,孔径主要介于4—50 nm之间,比表面积达158.13 m2·g-1;在298 K下,对Pb2+和Cu2+的吸附容量分别为1.833 mmol·g-1和6.557 mmol·g-1,远比在相同吸附条件下活性炭的吸附容量高.介孔硅酸钙吸附重金属离子为放热反应,主要是表面羟基与重金属离子间配位化学作用.经过5次洗脱再生,对Pb2+的平衡吸附量和吸附率仅分别降低了0.102 mmol·g-1和4.2%,表明其具有优良的吸附/再生性能,有望成为优良的重金属离子吸附材料.
Mesoporous calcium silicate was prepared from calcium nitrate and sodium silicate by the template method. The effects of different templates ( sodium dodecyl sulfate, cetyl trimethyl ammonium bromide, P123 and cetyl trimethyl ammonium bromide?tetramethyl ammonium hydroxide) on the pore size and surface topography of mesoporous calcium silicate were investigated. The calcium silicate synthesized was characterized by the X?ray diffraction ( XRD ) , scanning electron microscopy ( SEM ) , Brunauer?emmett?teller ( BET ) and Fourier transformed infrared spectroscopy ( FT?IR ) . The adsorption performance of mesoporous calcium silicate for Pb2+ and Cu2+, desorption regeneration performance were studied, and the adsorption effect for Pb2+and Cu2+was compared with activated carbon. The results show that the mesoporous calcium silicate synthesized using cetyl trimethyl ammonium bromide as a template had amesoporous slit?pore structure with a specific surface area of 158. 13 m2·g-1 , and pore size mainly distributed in 4—50 nm. The adsorption capacities for Pb2+ and Cu2+ were 1. 833 and 6. 557 mmol·g-1 at 298 K, respectively, far more than activated carbon under the same adsorption conditions. The adsorption of the heavy metal ions was an exothermic reaction, mainly resulting from the coordination action of hydroxyl groups on the surface of calcium silicate with heavy metal ions. The adsorption capacity and removal rate for Pb2+ only decreased by 0. 102 mmol·g-1 and 4. 2% respectively after 5 elution?regeneration cycles, indicating that the mesoporous calcium silicate had excellent adsorption and regeneration performance. It is expected to be an excellent adsorption material for heavy metal ions.
参考文献
| [1] | Mark E. Andrus.A review of metal precipitation chemicals for metal-finishing applications[J].Metal finishing,200011(11):20-23. |
| [2] | I. Giannopoulou;D. Panias.Differential precipitation of copper and nickel from acidic polymetallic aqueous solutions[J].Hydrometallurgy,20082/4(2/4):137-146. |
| [3] | Biswajit Sarkar;Sunando DasGupta;Sirshendu De.Application of external electric field to enhance the permeate flux during micellar enhanced ultrafiltration[J].Separation and Purification Technology,20092(2):263-272. |
| [4] | Sciban M;Radetic B;Kevresan D;Klasnja M.Adsorption of heavy metals from electroplating wastewater by wood sawdust[J].Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies,20072(2):402-409. |
| [5] | Zhang, M.;Chang, J..Surfactant-assisted sonochemical synthesis of hollow calcium silicate hydrate (CSH) microspheres for drug delivery[J].Ultrasonics sonochemistry,20105(5):789-792. |
| [6] | Qiang Cai;Zhong-Sheng Luo;Wen-Qin Pang;Yu-Wen Fan;Xi-Hua Chen;Fu-Zhai Cui.Dilute Solution Routes to Various Controllable Morphologies of MCM-41 Silica with a Basic Medium[J].Chemistry of Materials,20012(2):258-263. |
| [7] | Tae-Wan Kim;Po-Wen Chung;Victor S.-Y. Lin.Facile Synthesis of Monodisperse Spherical MCM-48 Mesoporous Silica , Nanoparticles with Controlled Particle Size[J].Chemistry of Materials: A Publication of the American Chemistry Society,201017(17):5093-5104. |
| [8] | Mercier L.;Pinnavaia TJ..Heavy metal lan adsorbents formed by the grafting of a thiol functionality to mesoporous silica molecular sieves: Factors affecting Hg(II) uptake[J].Environmental Science & Technology: ES&T,199818(18):2749-2754. |
| [9] | Taewook Kang;Younggeun Park;Jongheop Yi.Highly Selective Adsorption of Pt~(2+) and Pd~(2+) Using Thiol-Functionalized Mesoporous Silica[J].Industrial & Engineering Chemistry Research,20046(6):1478-1484. |
| [10] | Walcarius A.;Etienne M.;Lebeau B..Rate of access to the binding sites in organically modified silicates. 2. Ordered mesoporous silicas grafted with amine or thiol groups [Review][J].Chemistry of Materials,200311(11):2161-2173. |
| [11] | Taewook Kang;Younggeun Park;Kyunhgee Choi;Jeong Sang Lee;Jongheop Yi.Ordered mesoporous silica(SBA-15)derivatized with imidazole-containing functionalities as a selectie adsorbent of precious metal ions[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,20046(6):1043-1049. |
| [12] | Lingxia Zhang;Wenhua Zhang;Jianlin Shi;Zile Hua;Yongsheng Li;Jina Yan.A new thioether functionalized organic-inorganic mesoporous composite as a highly selective and capacious Hg~(2+) adsorbent[J].Chemical communications,20032(2):210-211. |
| [13] | 梁海欧 .多孔硅酸钙载银系掺杂二氧化钛光催化剂的制备及性能研究[D].内蒙古工业大学,2014. |
| [14] | 董亚;陆春华;倪亚茹;许仲梓.介孔水化硅酸钙微球的形貌控制及载药性能研究[J].硅酸盐通报,2012(3):511-515,525. |
| [15] | Andre Nonat.The structure and stoichiometry of C-S-H[J].Cement and Concrete Research,20049(9):1521-1528. |
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