Ligand-Exchange-Mediated Fabrication of Gold Aerogels Containing Different Au(I) Content with Peroxidase-like Behavior

Xuelin Fan; Bin Cai; Ran Du; René Hübner; Maximilian Georgi; Guocan Jiang; Lianwei Li; Mahdi Samadi Khoshkhoo; Hanjun Sun; Alexander Eychmüller

doi:10.1021/acs.chemmater.9b03121

Ligand-Exchange-Mediated Fabrication of Gold Aerogels Containing Different Au(I) Content with Peroxidase-like Behavior

Xuelin Fan, Bin Cai, Ran Du, René Hübner, Maximilian Georgi, Guocan Jiang, Lianwei Li, Mahdi Samadi Khoshkhoo, Hanjun Sun^*, Alexander Eychmüller

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

30 引用（Scopus）

摘要

Noble-metal aerogels are emerging functional porous materials that have been applied in diverse fields. Among them, gold (Au) aerogels have displayed grand potentials in a wide range of catalytic processes. However, current fabrication methods fall short in obtaining Au gels with small ligament sizes and controlled surface valence states, which hinder the study of the underlying catalytic mechanisms. Here, a new approach of producing Au aerogels is reported. Via a two-phase ligand exchange, the long-chain ligands (oleylamine) of the as-prepared Au nanoparticles were replaced by short sulfide ions and subsequently self-assembled into three-dimensional gels. As a result, Au aerogels with small ligament sizes (ca. 3-4 nm) and tunable surface valence states are acquired. Taking the application for peroxidase mimics as an example, by correlating the surface valence with the catalytic properties, Au(I) is found to be the active site for H₂O₂ and substrate-binding site for 3,3′,5,5′-tetramethylbenzidine, paving a new avenue for on-target devising Au-based catalysts.

源语言	英语
页（从-至）	10094-10099
页数	6
期刊	Chemistry of Materials
卷	31
期	24
DOI	https://doi.org/10.1021/acs.chemmater.9b03121
出版状态	已出版 - 24 12月 2019
已对外发布	是

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Fan, X., Cai, B., Du, R., Hübner, R., Georgi, M., Jiang, G., Li, L., Samadi Khoshkhoo, M., Sun, H., & Eychmüller, A. (2019). Ligand-Exchange-Mediated Fabrication of Gold Aerogels Containing Different Au(I) Content with Peroxidase-like Behavior. Chemistry of Materials, 31(24), 10094-10099. https://doi.org/10.1021/acs.chemmater.9b03121

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title = "Ligand-Exchange-Mediated Fabrication of Gold Aerogels Containing Different Au(I) Content with Peroxidase-like Behavior",

abstract = "Noble-metal aerogels are emerging functional porous materials that have been applied in diverse fields. Among them, gold (Au) aerogels have displayed grand potentials in a wide range of catalytic processes. However, current fabrication methods fall short in obtaining Au gels with small ligament sizes and controlled surface valence states, which hinder the study of the underlying catalytic mechanisms. Here, a new approach of producing Au aerogels is reported. Via a two-phase ligand exchange, the long-chain ligands (oleylamine) of the as-prepared Au nanoparticles were replaced by short sulfide ions and subsequently self-assembled into three-dimensional gels. As a result, Au aerogels with small ligament sizes (ca. 3-4 nm) and tunable surface valence states are acquired. Taking the application for peroxidase mimics as an example, by correlating the surface valence with the catalytic properties, Au(I) is found to be the active site for H2O2 and substrate-binding site for 3,3′,5,5′-tetramethylbenzidine, paving a new avenue for on-target devising Au-based catalysts.",

author = "Xuelin Fan and Bin Cai and Ran Du and Ren{\'e} H{\"u}bner and Maximilian Georgi and Guocan Jiang and Lianwei Li and {Samadi Khoshkhoo}, Mahdi and Hanjun Sun and Alexander Eychm{\"u}ller",

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year = "2019",

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doi = "10.1021/acs.chemmater.9b03121",

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AU - Fan, Xuelin

AU - Cai, Bin

AU - Du, Ran

AU - Hübner, René

AU - Georgi, Maximilian

AU - Jiang, Guocan

AU - Li, Lianwei

AU - Samadi Khoshkhoo, Mahdi

AU - Sun, Hanjun

AU - Eychmüller, Alexander

PY - 2019/12/24

Y1 - 2019/12/24

N2 - Noble-metal aerogels are emerging functional porous materials that have been applied in diverse fields. Among them, gold (Au) aerogels have displayed grand potentials in a wide range of catalytic processes. However, current fabrication methods fall short in obtaining Au gels with small ligament sizes and controlled surface valence states, which hinder the study of the underlying catalytic mechanisms. Here, a new approach of producing Au aerogels is reported. Via a two-phase ligand exchange, the long-chain ligands (oleylamine) of the as-prepared Au nanoparticles were replaced by short sulfide ions and subsequently self-assembled into three-dimensional gels. As a result, Au aerogels with small ligament sizes (ca. 3-4 nm) and tunable surface valence states are acquired. Taking the application for peroxidase mimics as an example, by correlating the surface valence with the catalytic properties, Au(I) is found to be the active site for H2O2 and substrate-binding site for 3,3′,5,5′-tetramethylbenzidine, paving a new avenue for on-target devising Au-based catalysts.

AB - Noble-metal aerogels are emerging functional porous materials that have been applied in diverse fields. Among them, gold (Au) aerogels have displayed grand potentials in a wide range of catalytic processes. However, current fabrication methods fall short in obtaining Au gels with small ligament sizes and controlled surface valence states, which hinder the study of the underlying catalytic mechanisms. Here, a new approach of producing Au aerogels is reported. Via a two-phase ligand exchange, the long-chain ligands (oleylamine) of the as-prepared Au nanoparticles were replaced by short sulfide ions and subsequently self-assembled into three-dimensional gels. As a result, Au aerogels with small ligament sizes (ca. 3-4 nm) and tunable surface valence states are acquired. Taking the application for peroxidase mimics as an example, by correlating the surface valence with the catalytic properties, Au(I) is found to be the active site for H2O2 and substrate-binding site for 3,3′,5,5′-tetramethylbenzidine, paving a new avenue for on-target devising Au-based catalysts.

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Ligand-Exchange-Mediated Fabrication of Gold Aerogels Containing Different Au(I) Content with Peroxidase-like Behavior

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