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Electrostatically cooperative host-in-host of metal cluster ⊂ ionic organic cages in nanopores for enhanced catalysis

Liangxiao Tan, Jun‐Hao Zhou, Jian‐Ke Sun, Jiayin Yuan

2022Nature Communications50 citationsDOIOpen Access PDF

Abstract

Abstract The construction of hierarchically nanoporous composite for high-performance catalytic application is still challenging. In this work, a series of host-in-host ionic porous materials are crafted by encapsulating ionic organic cages into a hyper-crosslinked, oppositely charged porous poly(ionic liquid) (PoPIL) through an ion pair-directed assembly strategy. Specifically, the cationic cage (C-Cage) as the inner host can spatially accommodate a functional Au cluster, forming a [Au⊂C-Cage + ]⊂PoPIL − supramolecular composite. This dual-host molecular hierarchy enables a charge-selective substrate sorting effect to the Au clusters, which amplifies their catalytic activity by at least one order of magnitude as compared to Au confined only by C-Cage as the mono-host (Au⊂C-Cage + ). Moreover, we demonstrate that such dual-host porous system can advantageously immobilize electrostatically repulsive Au⊂C-Cage + and cationic ferrocene co-catalyst (Fer + ) together into the same microcompartments, and synergistically speed up the enzyme-like tandem reactions by channelling the substrate to the catalytic centers via nanoconfinement.

Topics & Concepts

Host (biology)CatalysisIonic bondingCluster (spacecraft)NanoporeMetalNanotechnologyChemistryMaterials scienceIonBiologyOrganic chemistryComputer scienceEcologyProgramming languageNanocluster Synthesis and ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced biosensing and bioanalysis techniques
Electrostatically cooperative host-in-host of metal cluster ⊂ ionic organic cages in nanopores for enhanced catalysis | Litcius