Nghiên cứu điều chế vật liệu bentonit lai vô cơ - hữu cơ và ứng dụng xử lý xanh methylen và phosphat trong nước

Tan Tai Le; Thanh Luan Duong; Van Thang Bui

doi:10.52714/dthu.31.4.2018.573

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Date Published: 25/04/2018

Online Published: 25/04/2018

Abstract Views: 65
Views PDF: 80

DOI: https://doi.org/10.52714/dthu.31.4.2018.573

Issue

No. 31 (2018): Part B - Natural Sciences

Section

Natural Sciences Issue (Vietnamese)

How to Cite

Le, T. T., Duong, T. L., & Bui, V. T. (2018). Studying synthesis and properties of inorganic–organic modified bentonite materials to treat blue methylene and phosphate in water. Dong Thap University Journal of Science, 31, 79-86. https://doi.org/10.52714/dthu.31.4.2018.573

Studying synthesis and properties of inorganic–organic modified bentonite materials to treat blue methylene and phosphate in water

Tan Tai Le, Thanh Luan Duong, Van Thang Bui¹
¹ Dong Thap University

Abstract

In this paper, we studied synthesis inorganic-organic modified bentonite materials, which can remove both organic and phosphate in water. These materials were made by an exchange between inorganic cationic in interlayer of bentonite and two substances, including cetyltrimethylammonium bromide (CTAB) and polyhydroxyl iron. The structure and properties of these materials were determined by XRD, FTIR and TG-DTG methods. The obtained results show that CTAB and polyhydroxyl iron were inserted to the interlayer of bentonite. It is initially found that the obtained CTAB/Fe-Bent could remove both the blue methylene and phosphate from water.

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Keywords

bentonite, inorganic-organic bentonite, methylene blue, phosphate

References

[1]. A. G. Becerra, M. B. Soto, V. Soto, J. A. Ceja, N. Casillas, S. Prévost, L. Noirez, M. Gradzielski, J. Escalante (2012), ―Structure of reverse microemulsion-templated metal hexacyanoferrate nanoparticles‖, Nanoscale Research Letter, 7 (83), p. 1-12.
[2]. H. He, R. L. Frost, T. Bostrom, P. Yuan, L. Duong, D. Yang, Y. Xi, J. T. Kloprogge (2006), ―Changes in the morphology of organoclays with HDTMA+ surfactant loading‖, Applied Clay Science, (31), p. 262-271.
[3]. Z. Hu, G. He, Y. Liu, C. Dong, X. Wu, W. Wei (2013), ―Effects of surfactant concentration on alkyl chain arrangements in dry and swollen organic montmorillonite‖, Applied Clay Science, (75- 76), p. 134-140.
[4]. Lê Thị Mỹ Linh (2016), Nghiên cứu biến tính bentonit Cổ Định và ứng dụng trong xúc tác - hấp phụ, Luận án Tiến sĩ Hóa học, Đại học Sư phạm - Đại học Huế.
[5]. Bùi Văn Thắng, Trần Thị Xuân Mai (2017), ―Khảo sát hấp phụ p-nitrophenol trên cetyl trimethylamoni bromua biến tính bentonit‖, Tạp chí Khoa học Trường Đại học Đồng Nai, (số 04), tr. 112-120.
[6]. Bùi Văn Thắng, Nguyễn Thị Lệ Vân (2015), ―Ảnh hưởng của nồng độ cetyl trimetylamoni bromua đến cấu trúc vật liệu bentonit hữu cơ, Tạp chí Khoa học Đại học Đồng Tháp, (số 12), tr. 88-85.
[7]. Y. Xi, Z. Ding, H. He, R. L. Frost (2004), ―Structure of organoclays—an X-ray diffraction and thermogravimetric analysis study‖, Journal of Colloid and Interface Science, (277), p. 116-120.
[8]. L. G. Yan, Y. Y. Xu, H. Q. Yu, X. D. Xin, Q. Wei, B. Du (2010), ―Adsorption of phosphate from aqueous solution by hydroxy-aluminum, hydroxy-iron and hydroxy-iron–aluminum pillared bentonites, Journal of Hazardous Materials, (179), p. 244-250.
[9]. J. Zhu, H. He, J. Guo, D. Yang, X. Xie (2003), ―Arrangement models of alkylammonium cations in the interlayer of HDTMA+ pillared montmorillonites, Chinese Science Bulletin, 48 (4), p. 368-372.
[10]. R. Zhu, L. Zhu, J. Zhao, F. Ge, T. Wong (2009), ―Sorption of naphthalene and phosphate to the CTMAB–Al13 intercalated bentonites‖, Journal of Hazardous Materials, (168), p. 1590-1594.

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