Direct Synthesis of Two-Dimensional Metal-Organic Framework Nanoplates for Noble Metal Load and Gaseous Iodine Adsorption

Xin Chen; Xue Jiang; Xingfeng Lei; Baoliang Zhang; Mingtao Qiao; Changjie Yin; Qiuyu Zhang

doi:10.1021/acs.cgd.9b01545

Direct Synthesis of Two-Dimensional Metal-Organic Framework Nanoplates for Noble Metal Load and Gaseous Iodine Adsorption

Xin Chen, Xue Jiang, Xingfeng Lei, Baoliang Zhang, Mingtao Qiao, Changjie Yin, Qiuyu Zhang

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

8 引用（Scopus）

摘要

A new strategy has been developed to directly synthesize two-dimensional metal-organic framework nanoplates in an aqueous system without any additives. Time-dependent experiments demonstrate that formation mechanisms mainly include limited diffusion of reactants in transient phase and capping-agent-like effect of HOOC-CH=CH-COO^-. The obtained 2D MIL-53(Al)-FA exhibited intrinsic surface functional groups (-COOH) and accessible pores. Ag nanoparticles loaded on 2D product via electrostatic interactions between -COOH and positive Ag⁺ could accelerate catalytic decolorization of methyl orange in the presence of NaBH₄. Furthermore, the product could be a good candidate for adsorption of gaseous iodine due to accessibility of the pores.

源语言	英语
页（从-至）	1378-1382
页数	5
期刊	Crystal Growth and Design
卷	20
期	3
DOI	https://doi.org/10.1021/acs.cgd.9b01545
出版状态	已出版 - 4 3月 2020

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abstract = "A new strategy has been developed to directly synthesize two-dimensional metal-organic framework nanoplates in an aqueous system without any additives. Time-dependent experiments demonstrate that formation mechanisms mainly include limited diffusion of reactants in transient phase and capping-agent-like effect of HOOC-CH=CH-COO-. The obtained 2D MIL-53(Al)-FA exhibited intrinsic surface functional groups (-COOH) and accessible pores. Ag nanoparticles loaded on 2D product via electrostatic interactions between -COOH and positive Ag+ could accelerate catalytic decolorization of methyl orange in the presence of NaBH4. Furthermore, the product could be a good candidate for adsorption of gaseous iodine due to accessibility of the pores.",

author = "Xin Chen and Xue Jiang and Xingfeng Lei and Baoliang Zhang and Mingtao Qiao and Changjie Yin and Qiuyu Zhang",

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doi = "10.1021/acs.cgd.9b01545",

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AU - Chen, Xin

AU - Jiang, Xue

AU - Lei, Xingfeng

AU - Zhang, Baoliang

AU - Qiao, Mingtao

AU - Yin, Changjie

AU - Zhang, Qiuyu

PY - 2020/3/4

Y1 - 2020/3/4

N2 - A new strategy has been developed to directly synthesize two-dimensional metal-organic framework nanoplates in an aqueous system without any additives. Time-dependent experiments demonstrate that formation mechanisms mainly include limited diffusion of reactants in transient phase and capping-agent-like effect of HOOC-CH=CH-COO-. The obtained 2D MIL-53(Al)-FA exhibited intrinsic surface functional groups (-COOH) and accessible pores. Ag nanoparticles loaded on 2D product via electrostatic interactions between -COOH and positive Ag+ could accelerate catalytic decolorization of methyl orange in the presence of NaBH4. Furthermore, the product could be a good candidate for adsorption of gaseous iodine due to accessibility of the pores.

AB - A new strategy has been developed to directly synthesize two-dimensional metal-organic framework nanoplates in an aqueous system without any additives. Time-dependent experiments demonstrate that formation mechanisms mainly include limited diffusion of reactants in transient phase and capping-agent-like effect of HOOC-CH=CH-COO-. The obtained 2D MIL-53(Al)-FA exhibited intrinsic surface functional groups (-COOH) and accessible pores. Ag nanoparticles loaded on 2D product via electrostatic interactions between -COOH and positive Ag+ could accelerate catalytic decolorization of methyl orange in the presence of NaBH4. Furthermore, the product could be a good candidate for adsorption of gaseous iodine due to accessibility of the pores.

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SN - 1528-7483

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Direct Synthesis of Two-Dimensional Metal-Organic Framework Nanoplates for Noble Metal Load and Gaseous Iodine Adsorption

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