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Research Article

Amphiphilic Pd@micro-organohydrogels with controlled wettability for enhancing gas–liquid–solid triphasic catalytic performance

Minghui Zhang1Tianyi Zhao1( )Cunming Yu1Qian Liu1Guangyan Wang1Hui Yang2Ming Yang2Lei Jiang1Mingjie Liu1 ( )
Key Laboratory of Bio-Inspired Smart Interfacial Science and Technology of Ministry of Education School of Chemistry, Beihang University Beijing 100191 China
CAS Key Lab of Colloid Interface and Chemical Thermodynamics Institute of Chemistry Chinese Academy of Sciences Beijing 100190 China
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Abstract

The wettability of catalyst plays an important role in regulating catalytic performance in heterogenous catalysis because the microenvironment around the catalytic sites directly determines the mass transfer process of reactants. Inspired by gas trapped on the surface of subaquatic spiders, amphiphilic micro-organohydrogels with tunable surface wettabilities were developed by anchoring various alkane chains onto a poly(2-(dimethylamino)ethyl methacrylate) (p(DMAEMA)) hydrophilic microgel network. Palladium nanoparticles (Pd NPs) were encapsulated in amphiphilic microgels (amphiphilic Pd@M) to catalyze hydrogenation reaction, achieving higher activities than pristine monohydrophilic Pd@M composite. The underwater oleophilicity and aerophilicity of Pd@M composites were quantified by oil/gas adhesion measurements and computational simulations. The higher amphiphilic catalytic activities are attributed to the formation of a gas–oil–solid reaction interface on the catalyst surfaces, allowing rapid transport of H2 and organic substrates through water to the Pd catalytic sites. Additionally, amphiphilic Pd@M composites also exhibit more superior catalytic performance in multi-substrates reaction.

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Nano Research
Pages 557-563

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Cite this article:
Zhang M, Zhao T, Yu C, et al. Amphiphilic Pd@micro-organohydrogels with controlled wettability for enhancing gas–liquid–solid triphasic catalytic performance. Nano Research, 2022, 15(1): 557-563. https://doi.org/10.1007/s12274-021-3520-y
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Received: 08 March 2021
Revised: 12 April 2021
Accepted: 13 April 2021
Published: 22 June 2021
© Tsinghua University Press and Springer-Verlag GmbH Germany, part of Springer Nature 2021