[1] M.M. Alnuaimi, M.A. Rauf, S.S. Ashraf, Comparative decoloration study of Neutral Red by different oxidative processes, Dyes Pigments 72(2007) 367-371.[2] A. Xu, X. Li, S. Ye, G. Yin, Q. Zeng, Catalyzed oxidative degradation of methylene blue by in situ generated cobalt (Ⅱ)-bicarbonate complexes with hydrogen peroxide, Appl. Catal. B Environ. 102(2011) 37-43.[3] W. Wei, P. Gao, J. Xie, S. Zong, H. Cui, X. Yue, Uniform Cu2Cl(OH)3 hierarchical microspheres:A novel adsorbent for methylene blue adsorptive removal from aqueous solution, J. Solid State Chem. 204(2013) 305-313.[4] S. Ameen, M. Shaheer Akhtar, Y. Soon Kim, O-Bong Yang, H. Shik Shin, An effective nanocomposite of polyaniline and ZnO:preparation, characterizations, and its photocatalytic activity, Colloid Polym. Sci. 289(2011) 415-421.[5] S. Caudo, G. Centi, C. Genovese, S. Perathoner, Homogeneous versus heterogeneous catalytic reactions to eliminate organics from waste water using H2O2, Top. Catal. 40(2006) 207-219.[6] P. Bautista, A.F. Mohedano, J.A. Casas, J.A. Zazo, J.J. Rodriguez, An overview of the application of Fenton oxidation to industrial wastewaters treatment, J. Chem. Technol. Biotechnol. 83(2008) 1323-1338.[8] J. Chu, L. Zhong, Photocatalytic Degradation of Methylene Blue with Side-glowing Optical Fiber Deliverying Visible Light, Chin. J. Chem. Eng. 20(2012) 895-899.[8] H. Habazaki, Y. Hayashi, H. Konno, Characterization of electrodeposited WO3 films and its application to electrochemical wastewater treatment, Electrochim. Acta 47(2012) 4181-4188.[9] S. Thirumalairajan, K. Girija, V.R. Mastelaro, N. Ponpandian, Photocatalytic degradation of organic dyes under visible light irradiation by floral-like LaFeO3 nanostructures comprised of nanosheet petals, New J. Chem. 38(2014) 5480-5490.[10] M. Amini, B. Pourbadiei, T. Purnima, A. Ruberu, L. Keith Woo, Catalytic activity of MnOx/WO3 nanoparticles:synthesis, structure characterization and oxidative degradation of methylene blue, New J. Chem. 38(2014) 1250-1255.[11] S.T. Liu, A.B. Zhang, K.K. Yan, Y. Ye, X.G. Chen, Microwave-enhanced catalytic degradation of methylene blue by porous MFe2O4(M=Mn, Co) nanocomposites:Pathways and mechanisms, Sep. Purif. Technol. 135(2014) 35-41.[12] P. Zhang, Y. Zhan, B. Cai, C. Hao, J. Wang, C. Liu, Z. Meng, Z. Yin, Q. Chen, Shapecontrolled synthesis of Mn3O4 nanocrystals and their catalysis of the degradation of methylene blue, Nano Res. 3(2010) 235-243.[13] M. Khaksar, M. Amini, D.M. Boghaei, K.H. Chae, S. Gautam, Mn-doped ZrO2 nanoparticles as an efficient catalyst for green oxidative degradation of methylene blue, Catal. Commun. 72(2015) 1-5.[14] Q. Wang, D. O'Hare, Recent advances in the synthesis and application of layered double hydroxide (LDH) nanosheets, Chem. Rev. 112(2012) 4124-4155.[15] B. Velde, Clays and Clay Minerals in Natural and Synthetic Systems, Elsevier, Amsterdam, 1977.[16] A. Meunier, Clays, Springer, Berlin, 2005.[17] S.M. Auerbach, K.A. Carrado, P.K. Dutta (Eds.),Handbook of Layered Materials, 2004.[18] T. Selvam, A. Inayat, W. Schwieger, Reactivity and applications of layered silicates and layered double hydroxides, Dalton Trans. 43(2014) 10365-10387.[19] L. Liu, W. Wang, Y. Hu, Layered double hydroxide-decorated flexible polyurethane foam:Significantly improved toxic effluent elimination, RSC Adv. 5(2015) 97458-97466.[20] C. Taviot-Gueho, M. Halma, K. Charradi, C. Forano, C. Mousty, Structural and electrochemical characterization of metallo-porphyrins intercalated into ZnCr-layered double hydroxides:Some evidence of dimer formation, New J. Chem. 35(2011) 1898-1905.[21] H. Lv, Y.V. Geletii, C. Zhao, J.W. Vickers, G. Zhu, Z. Luo, J. Song, T. Lian, D.G. Musaev, C.L. Hill, Polyoxometalate water oxidation catalysts and the production of green fuel, Chem. Soc. Rev. 41(2012) 7572-7589.[22] S. Uchida, K. Kamata, Y. Ogasawara, M. Fujita, N. Mizuno, Structural and dynamical aspects of alkylammonium salts of a silicodecatungstate as heterogeneous epoxidation catalysts, Dalton Trans. 41(2012) 9979-9983.[23] Y. Ding, W. Zhao, H. Hua, B. Ma,[π-C5H5N(CH2)15CH3]3[PW4O32]/H2O2/ethyl acetate/alkenes:A recyclable and environmentally benign alkenes epoxidation catalytic system, Green Chem. 10(2008) 910-913.[24] Y. Nishiyama, Y. Nakagawa, N. Mizuno, High turnover numbers for the catalytic selective epoxidation of alkenes with 1 atm of molecular oxygen, Angew. Chem. Int. Ed. 40(2001) 3639-3641.[25] N.V. Izarova, M.T. Pope, U. Kortz, Noble metals in polyoxometalates, Angew. Chem. Int. Ed. 51(2012) 9492-9510.[26] M. Amini, H. Naslhajian, S.M.F. Farnia, M. Holynska, Selective oxidation of sulfides catalyzed by the nanocluster polyoxomolybdate (NH4)12[Mo36(NO)4O108(H2O)16], Eur. J. Inorg. Chem. 2015(2015) 3873-3878.[27] P. Liu, C. Wang, C. Li, Epoxidation of allylic alcohols on self-assembled polyoxometalates hosted in layered double hydroxides with aqueous H2O2 as oxidant, J. Catal. 262(2009) 159-168.[28] P. Koilraj, K. Sasaki, Fe3O4/MgAl-NO3 layered double hydroxide as a magnetically separable sorbent for the remediation of aqueous phosphate, J. Environ. Chem. Eng. 4(2016) 984.[29] Y. Chen, Z. Yao, H.N. Miras, Y.F. Song, Modular polyoxometalate-layered double hydroxide composites as efficient oxidative catalysts, Chem. Eur. J. 21(2015) 10812-10820.[30] Y. Zhou, W. Hu, J. Yu, F. Jiao, Effective photocatalytic degradation of methylene blue by Cu2O/MgAl layered double hydroxides, React. Kinet. Mech. Catal. 115(2015) 581-596.[31] Shengjie Xia, Lianyang Zhang, Guoxiang Pan, Pingping Qian, Zheming Ni, Photocatalytic degradation of methylene blue with a nanocomposite system:Synthesis, photocatalysis and degradation pathways, Phys. Chem. Chem. Phys. 17(2015) 5345-5351.[32] M. Khaksar, D.M. Boghaei, M. Amini, Synthesis, structural characterization and reactivity of manganese tungstate nanoparticles in the oxidative degradation of methylene blue, C. R. Chim. 18(2015) 199-203. |