Renewable Wood Pulp Paper Reactor with Hierarchical Micro/Nanopores for Continuous‐Flow Nanocatalysis

Continuous‐flow nanocatalysis based on metal nanoparticle catalyst‐anchored flow reactors has recently provided an excellent platform for effective chemical manufacturing. However, there has been limited progress in porous structure design and recycling systems for metal nanoparticle‐anchored flow r...

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Veröffentlicht in:ChemSusChem 2017-06, Vol.10 (12), p.2560-2565
Hauptverfasser: Koga, Hirotaka, Namba, Naoko, Takahashi, Tsukasa, Nogi, Masaya, Nishina, Yuta
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Sprache:eng
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Zusammenfassung:Continuous‐flow nanocatalysis based on metal nanoparticle catalyst‐anchored flow reactors has recently provided an excellent platform for effective chemical manufacturing. However, there has been limited progress in porous structure design and recycling systems for metal nanoparticle‐anchored flow reactors to create more efficient and sustainable catalytic processes. In this study, traditional paper is used for a highly efficient, recyclable, and even renewable flow reactor by tailoring the ultrastructures of wood pulp. The “paper reactor” offers hierarchically interconnected micro‐ and nanoscale pores, which can act as convective‐flow and rapid‐diffusion channels, respectively, for efficient access of reactants to metal nanoparticle catalysts. In continuous‐flow, aqueous, room‐temperature catalytic reduction of 4‐nitrophenol to 4‐aminophenol, a gold nanoparticle (AuNP)‐anchored paper reactor with hierarchical micro/nanopores provided higher reaction efficiency than state‐of‐the‐art AuNP‐anchored flow reactors. Inspired by traditional paper materials, successful recycling and renewal of AuNP‐anchored paper reactors were also demonstrated while high reaction efficiency was maintained. Pulp fact: Highly efficient continuous‐flow nanocatalysis with a recycling and renewing system is successfully demonstrated by a metal nanoparticle catalysts‐anchored wood pulp paper reactor with tailored hierarchically porous structures. Our strategy opens new doors for truly green sustainable chemical manufacturing.
ISSN:1864-5631
1864-564X
DOI:10.1002/cssc.201700576