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Acta Chimica Sinica >

2023 , Vol. 81 >Issue 2: 207 - 216

DOI: https://doi.org/10.6023/A22110448

Review

Organic Modification of Layered Double Hydroxides and Its Applications

  • Na Yang ,
  • Jianzhong Ma ,
  • Jiabo Shi ,
  • Xu Guo
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  • a College of Bioresources Chemical and Materials Engineering, Shaanxi University of Science & Technology, Xi’an 710021
    b National Demonstration Center for Experimental Light Chemistry Engineering Education, Xi’an 710021
    c Xi’an Key Laboratory of Green Chemicals and Functional Materials, Xi’an 710021
    d School of Environment, Harbin Institute of Technology, Harbin 150001

Received date: 2022-11-03

  Online published: 2022-12-26

Supported by

National Natural Science Foundation of China (Key Program)(21838007); National Natural Science Foundation of China(22208201); Innovation Capability Support Program of Shaanxi Province(2021TD-16)

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Abstract

Layered double hydroxides (LDHs) have attracted wide attention in the fields of environment, energy and biomedicine owing to their tunable chemical composition, large specific surface area and good biocompatibility. However, the agglomeration of LDHs caused by the intermolecular forces during their synthesis process may lead to their uneven dispersion in the matrix, thereby limiting their further practical application. In this review, the organic modification methods of LDHs in recent years are summarized from the perspectives of surface modification and intercalation modification. Their emerging applications in diverse fields, such as flame retardancy, adsorption, catalysis, gas barrier, luminescence, energy storage and biomedicine are also described. Finally, future research directions and application fields of modified LDHs are highlighted.

Key words: layered double hydroxides; organic modification; surface modification; intercalating modification; application

Cite this article

Na Yang , Jianzhong Ma , Jiabo Shi , Xu Guo . Organic Modification of Layered Double Hydroxides and Its Applications[J]. Acta Chimica Sinica, 2023 , 81(2) : 207 -216 . DOI: 10.6023/A22110448

References

[1]
Vaccari, A. Catal. Today. 1998, 41, 53.
[2]
Rives, V. Layered Double Hydroxides Present and Future. Nova Science Publishers Inc., New York, 2001, p. 23.
[3]
Wang, Q.; O’Hare, D. Chem. Rev. 2012, 112, 4124.
[4]
Duan, M.; Liu, S.; Jiang, Q.; Guo, X.; Zhang, J.; Xiong, S. Chinese Chem. Lett. 2022, 33, 4428.
[5]
Duan, X.; Lu, J. Structure, assembly and function of two-dimensional nano composite hydroxide. Science Press, Beijing, 2013, pp. 9-15. (in Chinese)
[5]
(段雪, 陆军, 二维纳米复合氢氧化物结构、组装与功能, 科学出版社, 北京, 2013, pp. 9-15.)
[6]
Yuan, H.; Zhou, J.; Li, X.; Zhou, X. Chem. Des. Commun. 2022, 48, 99. (in Chinese)
[6]
(袁浩坤, 周杰, 李欣峰, 周喜, 化工设计通讯, 2022, 48, 99.)
[7]
Yu, J.; Wang, Q.; O’Hare, D.; Sun, L. Chem. Soc. Rev. 2017, 46, 5950.
[8]
Sahoo, D. P.; Das, K. K.; Mansingh, S.; Sultana, S.; Parida, K. Coordin. Chem. Rev. 2022, 469, 214666.
[9]
Jia, L.; Ma, J.; Gao, D.; Lv, B. Prog. Chem. 2018, 30, 9. (in Chinese)
[9]
(贾潞, 马建中, 高党鸽, 吕斌, 化学进展, 2018, 30, 9.)
[10]
Mckenzie, A. L.; Fishel, C. T.; Davis, R. J. J. Catal. 1992, 138, 547.
[11]
Lv, J.; Liu, P.; Li, R.; Wang, L.; Wang, G. Appl. Catal. B-Environ. 2021, 298, 120587.
[12]
Yang, N.; Ma, J.; Shi, J.; Gao, D. Appl. Clay Sci. 2020, 198, 105827.
[13]
Li, L.; Dai, Y.; Xu, Q.; Zhang, B.; Zhang, F.; You, Y.; Ma, D.; Li, S.; Zhang, Y. J. Alloy. Compd. 2021, 882, 160752.
[14]
Coiai, S.; Cicogna, F.; Pinna, S.; Spiniello, R.; Onor, M.; Oberhauser, W.; Coltelli, M.; Passaglia, E. Appl. Clay Sci. 2021, 214, 106276.
[15]
Yuan, Z.; Bak, S. M.; Li, P.; Jia, Y.; Sun, X. ACS Energy Lett. 2019, 4, 1412.
[16]
Yang, N.; Ma, J.; Shi, J.; Yang, X.; Lu, J. J. Colloid Interf. Sci. 2022, 610, 182.
[17]
Ren, C.; Wang, H.; Ji, J.; Li, W. Chemosphere. 2022, 135072.
[18]
Chagas, L. H.; De Carvalho, G.; Do Carmo, W. R.; San Gil, R.; Chiaro, S.; Leit?o, A. A.; Diniz, R.; De Sena, L. A.; Achete, C. A. Mater. Res. Bull. 2015, 64, 207.
[19]
Tang, Z.; Qiu, Z.; Lu, S.; Shi, X. Nanotechnol. Rev. 2020, 9, 800.
[20]
Yang, M.; Liu, S.; Nie, Y.; Wang, L.; Wang, L. Packaging Eng. 2022, 43, 89. (in Chinese)
[20]
(杨敏, 刘淑贤, 聂轶苗, 王玲, 王龙, 包装工程, 2022, 43, 89.)
[21]
Ahangaran, F.; Navarchian, A. H. Adv. Colloid Interfac. 2020, 286, 102298.
[22]
Hu, J.; Xu, S.; Wang, H.; Ding, C.; Liu, Z.; Ma, J.; Li, Z.; Wang, Q.; Zhu, J.; Qu, N. ACS Appl. Polym. Mater. 2022, 4, 4166.
[23]
Chen, C.; Buffet, J.; O’Hare, D. Dalton T. 2020, 49, 8498.
[24]
Zhang, C.; Yu, J.; Xue, L.; Sun, Y. Materials. 2017, 10, 78.
[25]
Zhang, C.; Wang, T.; Yu, M.; Xu, S.; Feng, Z.; Hu, C.; Duan, W. Constr. Build. Mater. 2021, 292, 123411.
[26]
Zhang, C.; Yu, J.; Feng, K.; Xue, L.; Xie, D. Appl. Clay Sci. 2016, 120, 1.
[27]
Zhang, C.; Dong, H.; Wang, T.; Xu, S.; He, J.; Fang, L.; Hu, C. RSC Adv. 2021, 11, 22131.
[28]
Wang, S.; Dong, H.; Xing, R.; Cui, L.; Wang, F.; Yang, X. Fine Chem. 2019, 36, 813. (in Chinese)
[28]
(王松林, 董合贺, 邢仁卫, 崔鲁青, 王飞, 杨旭旭, 精细化工, 2019, 36, 813.)
[29]
Xiao, Y.; Wu, M.; Yuan, Y.; Pang, X.; Chen, L. Electron. Compo. Mater. 2011, 30, 66. (in Chinese)
[29]
(肖勇, 吴孟强, 袁颖, 庞翔, 陈黎, 电子元件与材料, 2011, 30, 66.)
[30]
Li, F.; Zhang, H.; Li, C. Zhejiang Chem. Ind. 2021, 52, 32. (in Chinese)
[30]
(李芙蓉, 张浩东, 李崇瑛, 浙江化工, 2021, 52, 32.)
[31]
Dong, S.; Jia, Y.; Xu, X.; Luo, J.; Han, J.; Sun, X. J. Colloid Interf. Sci. 2019, 539, 54.
[32]
Lee, J.; Zhang, W.; Ryu, H.; Choi, G.; Choi, J. Y.; Choy, J. Polymer. 2019, 177, 274.
[33]
Perreira, A. C.; Pearson, S.; Kostadinova, D.; Leroux, F.; D’Agosto, F.; Lansalot, M.; Bourgeat-Lami, E.; Prévot, V. Polym. Chem.-UK. 2017, 8, 1233.
[34]
Huang, Q.; Zhao, J.; Liu, M.; Chen, J.; Zhu, X.; Wu, T.; Tian, J.; Wen, Y.; Zhang, X.; Wei, Y. J. Taiwan Inst. Chem. E. 2018, 82, 92.
[35]
Yu, X.; Wen, T.; Cao, P.; Shan, L.; Li, L. J. Colloid Interf. Sci. 2019, 556, 258.
[36]
Duan, X.; Zhang, F. Intercalation assembly chemistry of inorganic supramolecular materials. Science Press, Beijing, 2009, p. 15. (in Chinese)
[36]
(段雪, 张法智, 无机超分子材料的插层组装化学, 科学出版社, 北京, 2009, p. 15.)
[37]
Hu, A.; Hua, Y.; Du, C.; Peng, R.; Zhang, J.; Li, Q. New Chem. Mater. 2021, 49, 240. (in Chinese)
[37]
(胡爱莲, 滑亚婷, 杜春贵, 彭锐, 张晶晶, 李琦, 化工新型材料, 2021, 49, 240.)
[38]
Zhang, K.; Zhang, G. M.; Zhang, R.; He, T.; Cai, Y. R.; Yao, J. M. J. Zhejiang Sci-Tech University. 2022, 47, 814. (in Chinese)
[38]
(张坤, 张官铭, 张睿, 何涛, 蔡玉荣, 姚菊明, 浙江理工大学学报(自然科学版), 2022, 47, 814.)
[39]
Zhu, S.; Chen, Y.; Khan, M.; Xu, H.; Wang, F.; Xia, M. ACS Appl. Mater. Interfaces. 2022, 14, 7450.
[40]
Li, J.; He, N.; Li, J.; Fu, Q.; Feng, M.; Jin, W.; Li, W.; Xiao, Y.; Yu, Z.; Chu, P. Surf. Coat. Tech. 2022, 439, 128442.
[41]
Jin, L.; Zeng, H.; Du, J.; Xu, S. Appl. Clay Sci. 2020, 187, 105481.
[42]
Cao, Q.; Wang, Z.; Zhang, Z.; Liu, D.; Zhu, H.; Wang, Z. Polym. Composite. 2022, 43, 9169.
[43]
Coiai, S.; Cicogna, F.; Pinna, S.; Spiniello, R.; Onor, M.; Oberhauser, W.; Coltelli, M.; Passaglia, E. Appl. Clay Sci. 2021, 214, 106276.
[44]
Lyu, B.; Wang, Y.; Gao, D.; Ma, J.; Li, Y. J. Environ. Manage. 2019, 238, 235.
[45]
Rives, V.; Ulibarri, M. Coordin. Chem. Rev. 1999, 181, 61.
[46]
Geng, Z.; Zhen, W.; Song, Z.; Wang, X. J. Polym. Res. 2018, 25, 1.
[47]
Li, Z.; Liu, Z.; Zhang, J.; Fu, C.; Wagenknecht, U.; Wang, D. Chem. Eng. J. 2019, 378, 122046.
[48]
Zhang, H.; Li, K.; Liang, Z.; Wan, Y.; Feng, Z.; Liu, J.; Zhang, Q.; Wang, M. J. Phys. Chem. Solids. 2022, 170, 110932.
[49]
Kovanda, F.; Jindová, E.; Lang, K.; Kubát, P.; Sedláková, Z. Appl. Clay Sci. 2010, 48, 260.
[50]
Jana, A.; Unni, A.; Ravuru, S. S.; Das, A.; Das, D.; Biswas, S.; Sheshadri, H.; De, S. Chem. Eng. J. 2022, 428, 131180.
[51]
Ma, J.; Yang, N.; Gao, D.; Jia, L.; Yang, X. Macromol. Mater. Eng. 2020, 305, 2000195.
[52]
Xu, S.; Li, S.; Zhang, M.; Zeng, H.; Wu, K.; Tian, X.; Chen, C.; Pan, Y. Carbohyd. Polym. 2020, 234, 115891.
[53]
Laipan, M.; Yu, J.; Zhu, R.; Zhu, J.; Smith, A. T.; He, H.; O’Hare, D.; Sun, L. Materials Horizons. 2020, 7, 715.
[54]
An, W.; Ma, J.; Xu, Q. Appl. Surf. Sci. 2021, 551, 149409.
[55]
Zhang, Y.; Li, L.; Shi, D.; Song, F. J. Colloid Interf. Sci. 2021, 594, 791.
[56]
Wu, K.; Xu, S.; Tian, X.; Zeng, H.; Hu, J.; Guo, Y.; Jian, J. Int. J. Biol. Macromol. 2021, 178, 580.
[57]
Lyu, B.; Luo, K.; Wang, Y.; Gao, D.; Ma, J. Appl. Clay Sci. 2020, 190, 105559.
[58]
Luo, K. M.S. Thesis. Shaanxi University of Science and Technology, Xi’an, 2021. (in Chinese)
[58]
(雒康, 硕士论文, 陕西科技大学, 西安, 2021.)
[59]
Guan, X.; Yuan, X.; Zhao, Y.; Wang, H.; Wang, H.; Bai, J.; Li, Y. Sci. Total Environ. 2022, 838, 155693.
[60]
Gao, M.; Xu, D.; Gao, Y.; Chen, G.; Zhai, R.; Huang, X.; Xu, X.; Wang, J.; Yang, X.; Liu, G. J. Hazard. Mater. 2021, 420, 126609.
[61]
Wang, D.; Repo, E.; He, F.; Zhang, X.; Xiang, H.; Yang, W.; Min, X.; Zhao, F. J. Hazard. Mater. 2022, 439, 129693.
[62]
Yu, J.; Yang, Y.; Wei, M. Acta Chim. Sinica. 2019, 77, 1129. (in Chinese)
[62]
(余俊, 杨宇森, 卫敏, 化学学报, 2019, 77, 1129.)
[63]
Chang, W.; Qi, B.; Song, Y. ACS Appl. Mater. Inter. 2020, 12, 36389.
[64]
Zhao, G.; Zou, J.; Chen, X.; Yu, J.; Jiao, F. Chem. Eng. J. 2020, 397, 125407.
[65]
Zhang, C.; Wang, J.; Liu, Y.; Lin, L.; Lei, L.; Zhang, H.; Wang, Z.; Cheng, H.; Wang, P.; Zheng, Z. J. Colloid Interf. Sci. 2022, 610, 455.
[66]
Zhou, Y.; Hu, J.; Yang, L.; Gao, Q. Chinese Chem. Lett. 2022, 33, 2845.
[67]
Dong, Y.; Ma, D.; Wu, X.; Zhu, Q. Inorg. Chem. Front. 2020, 7, 270.
[68]
Shi, J.; Zhang, R.; Liu, X.; Zhang, Y.; Du, Y.; Dong, H.; Ma, Y.; Li, X.; Cheung, P.; Chen, F. Carbohyd. Polym. 2023, 301, 120323.
[69]
Yu, J.; Buffet, J.; O’Hare, D. ACS Appl. Mater. Inter. 2020, 12, 10973.
[70]
Wang, L. M.S. Thesis. Beijing University of Chemical Technology, Beijing, 2017. (in Chinese)
[70]
(王璐美, 硕士论文, 北京化工大学, 北京, 2017.)
[71]
Li, J.; Li, B.; Wang, J.; He, L.; Zhao, Y. Acta Chim. Sinica. 2021, 79, 238. (in Chinese)
[71]
(李佳欣, 李蓓, 王纪康, 何蕾, 赵宇飞, 化学学报, 2021, 79, 238.)
[72]
Peng, L.; Mei, X.; He, J.; Xu, J.; Zhang, W.; Liang, R.; Wei, M.; Evans, D. G.; Duan, X. Adv. Mater. 2018, 30, 1707389.
[73]
Nguyen, T. K. L.; Nguyen, T. L.; Cao, X. T.; Park, C.; Lim, K. T. Mol. Cryst. Liq. Cryst. 2016, 635, 120.
[74]
Gao, R.; Yan, D.; Duan, X. Cell Rep. Phys. Sci. 2021, 2, 100536.
[75]
Chen, H.; Wang, Y.; Lin, J.; Shuai, M.; Zhu, H.; Zhang, W.; Ling, Q. J. Am. Ceram. Soc. 2019, 102, 2718.
[76]
Wang, Y. M.S. Thesis. Fujian Normal University, Fuzhou, 2019. (in Chinese)
[76]
(王瑶, 硕士论文, 福建师范大学, 福州, 2019.)
[77]
Zhang, D.; Cao, J.; Zhang, X.; Zeng, Z.; Insin, N.; Qin, J.; Huang, Y. Adv. Energy Sustain. Res. 2022, 3, 2100183.
[78]
Chen, S.; Lu, C.; Liu, L.; Xu, M.; Wang, J.; Deng, Q.; Zeng, Z.; Deng, S. Nanoscale. 2020, 12, 1852.
[79]
Lan, Y.; Li, M.; Fan, W.; Deng, Q.; Zeng, Z.; Wang, J.; Deng, S. Electrochim. Acta. 2019, 321, 134708.
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