Removal of UO2 2+ from aqueous solution using halloysite nanotube-Fe3O4 composite

Wenfang He; Yuantao Chen; Wei Zhang; Chunlian Hu; Jian Wang; Pingping Wang

Korean Journal of Chemical Engineering, Vol.33, No.1, 170-177, January, 2016

DOI10.1007/s11814-015-0111-1 Export Citation

Removal of UO2 2+ from aqueous solution using halloysite nanotube-Fe3O4 composite

Wenfang He, Yuantao Chen^†, Wei Zhang, Chunlian Hu, Jian Wang, and Pingping Wang

Department of Chemistry, Qinghai Normal University, Xining 810008, P. R. China

E-mail:

Halloysite nanotubes (HNTs) were modified with Fe3O4 to form novel magnetic HNTs-Fe3O4 composites, and the composites were characterized by X-ray diffraction (XRD), transmission electron microscope (TEM), Fourier transform infrared spectroscopy (FT-IR) and vibrating sample magnetometer (VSM). The as-obtained results indicated that Fe3O4 nanoparticles were successfully installed on the surface of HNTs. The adsorption of UO2 2+ on HNTs-Fe3O4 was investigated as a function of solid content, contact time, pH, ionic strength and temperature by batch experiments. The consequences revealed that the adsorption of UO2 2+ onto HNTs-Fe3O4 was strongly dependent on pH and ionic strength. Equilibrium data fitted well with the Langmuir isotherm. The experimental results demonstrated that the adsorbents with HNTs-Fe3O4 had the largest adsorption capacity of 88.32mg/g for UO2 2+.

Keywords:Halloysite Nanotubes-Fe3O4;Adsorption;UO2 2+;Modification;pH

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[2] Sachs S, Bernhard G, Chemosphere, 72, 1441 (2008)

[3] Baik MH, Cho WJ, Hahn PS, J. Radioanal. Nucl. Chem., 260, 495 (2004)

[4] Ren XM, Chen CL, Nagatsu M, Wang XK, Chem. Eng. J., 170(2-3), 395 (2011)

[5] Chi YL, Chen YT, Liu X, Guo ZJ, Cai LS, J. Radioanal. Nucl. Chem., 292, 1349 (2012)

[6] Shao DD, Hu J, Wang XK, Plasma. Process. Polym., 7, 977 (2010)

[7] Hu J, Shao DD, Chen CL, Sheng GD, Li JX, Wang XK, Nagatsu M, J. Phys. Chem. B, 114(20), 6779 (2010)

[8] Yang SB, Hu J, Chen CL, Shao DD, Wang XK, Environ. Sci. Technol., 45, 3621 (2011)

[9] Zhang H, Chen L, Zhang LP, Yu XJ, J. Radioanal. Nucl. Chem., 287, 357 (2010)

[10] Fan QH, Tan XL, Li JX, Wang XK, Wu WS, Montavon G, Environ. Sci. Technol., 43, 5776 (2009)

[11] Fan QH, Shao DD, Lu Y, Wu WS, Wang XK, Chem. Eng. J., 150(1), 188 (2009)

[12] Liu ZJ, Chen L, Dong YH, Zhang ZC, J. Radioanal. Nucl. Chem., 289, 851 (2011)

[13] Sheng GD, Wang SW, Hu J, Lu Y, Li JX, Dong YH, Wang XK, Colloids Surf. A: Physicochem. Eng. Asp., 339, 159 (2009)

[14] Zhao GX, Jiang L, He YD, Li JX, Dong HL, Wang XK, Hu WP, Adv. Mater., 23(34), 3959 (2011)

[15] Zhao GX, Ren XM, Gao X, Tan XL, Li JX, Chen CL, Huang YY, Wang XK, J. Chem. Soc.-Dalton Trans., 40, 10945 (2011)

[16] Luo P, Zhao YF, Zhang B, Liu JD, Yang Y, Liu JF, Water Res., 44, 1490 (2010)

[17] Du Y, Zheng P, Korean J. Chem. Eng., 31(11), 2051 (2014)

[18] Luo P, Zhang B, Zhao Y, Wang J, Zhang H, Liu J, Korean J. Chem. Eng., 28(3), 800 (2011)

[19] Xiao J, Chen YT, Zhao WH, Xu JB, J. Mol. Liq., 188, 184 (2013)

[20] Rocher V, Siaugue JM, Cabuil V, Bee A, Water Res., 42, 1291 (2008)

[21] Gupta VK, Agarwal S, Saleh TA, Water Res., 45, 2208 (2011)

[22] Duan JM, Liu RC, Chen T, Zhang B, Liu JD, Desalination, 293, 46 (2012)

[23] Xie YF, Qian DY, Wu DL, Ma XF, Chem. Eng., 168, 960 (2011)

[24] Luo P, Zhao YF, Zhang B, Liu JD, Yang Y, Liu JF, Water Res., 44, 1490 (2010)

[25] Tierrablanca E, Romero-Garcia J, Roman P, Cruz-Silva R, Appl. Catal. A: Gen., 381, 270 (2010)

[26] Yang ST, Zong PF, Hu J, Sheng GD, Wang XK, Chem. Eng. J., 214, 378 (2013)

[27] Liu ZG, Zhang FS, Sasai R, Chem. Eng. J., 160, 59 (2010)

[28] Xie YF, Qian DY, Wu DL, Ma XF, Chem. Eng. J., 168, 961 (2011)

[29] Lee D, Cochen RE, Rubner MF, Langmuir, 23, 127 (2007)

[30] Chang P, Yu S, Chen T, Ren A, Chen C, Wang X, J. Radioanal. Nucl. Chem., 274, 155 (2007)

[31] Chen CL, Wang XK, Ind. Eng. Chem. Res., 45(26), 9144 (2006)

[32] Wu XL, Wang L, Chen CL, Xu AW, Wang XK, J. Mater. Chem., 21, 17353 (2011)

[33] Lu SS, Guo ZQ, Zhang CC, Zhang SW, J. Radioanal. Nucl. Chem., 287, 621 (2011)

[34] Tan XL, Hu J, Gilles M, Wang XK, J. Chem. Soc.-Dalton Trans., 40, 10953 (2011)

[35] Zhao MF, Liu P, Microporous Mesoporous Mater., 112, 421 (2008)

[36] Arnold T, Zorm T, Zanker H, Bernhard G, Nitsche H, J. Contam. Hydrol., 47, 219 (2001)

[37] Chen CL, Hu J, Shao DD, Li JX, Wang XK, J. Hazard. Mater., 164(2-3), 923 (2009)

[38] Liu RC, Zhang B, Mei DD, Zhang HQ, Liu JD, Desalination, 268, 112 (2011)

[39] Zhang AB, Pan L, Zhang HY, Liu ST, Ye Y, Xia MS, Chen XG, Colloids Surf. A: Physicochem. Eng. Asp., 396, 186 (2012)

[40] Behdani FN, Rafsanjani AT, Torab-Mostaedi M, Mohammadpour SMAK, Korean J. Chem. Eng., 30(2), 448 (2013)

[41] Tan XL, Wang XK, Fang M, Chen CL, Colloids Surf. A: Physicochem. Eng. Asp., 296, 113 (2007)

[42] oZcan A, Oncu EM, oZcan AS, Colloids Surf. A: Physicochem. Eng. Asp., 277, 94 (2006)

[43] Peng G, Ding D, Xiao F, Wang X, Hun N, Wang Y, Dai Y, Cao Z, J. Radioanal. Nucl. Chem., 301, 781 (2014)

[44] Zhou LM, Jia YY, Peng J, Liu ZR, Al-Zaini E, J. Radioanal. Nucl. Chem., 302, 331 (2014)

[45] Liao XP, Ma HW, Wang R, Shi B, J. Membr. Sci., 243(1-2), 235 (2004)

[46] Adegoke HI, AmooAdekola F, Fatoki OS, Ximba BJ, Korean J. Chem. Eng., 31(1), 142 (2014)

[47] Tahir SS, Rauf N, Chem. Thermodyn., 35, 2006 (2003)

[48] Zuo LM, Yu SM, Zhou H, Jiang J, Tian X, J. Radioanal. Nucl. Chem., 288, 581 (2011)

[49] Wu XL, Wang L, Chen CL, Xu AW, Wang XK, J. Mater. Chem., 21, 17357 (2011)