Litcius/Paper detail

Asymmetric Monolayer Mesoporous Nanosheets of Regularly Arranged Semi-Opened Pores via a Dual-Emulsion-Directed Micelle Assembly

Hanxing Chen, Chin‐Te Hung, Wei Zhang, Li Xu, Pengfei Zhang, Wei Li, Zaiwang Zhao, Dongyuan Zhao

2023Journal of the American Chemical Society39 citationsDOI

Abstract

Constructing asymmetric two-dimensional (2D) mesoporous nanomaterials with new pore structure, tunable monolayer architectures, and especially anisotropic surfaces remains a great challenge in materials science. Here, we report a dual-emulsion directed micelle assembly approach to fabricate a novel type of asymmetric monolayer mesoporous organosilica nanosheet for the first time. In this asymmetric 2D structure, numerous quasi-spherical semiopened mesopores (∼20 nm in diameter, 24 nm in opening size) were regularly arranged on a plane, endowing the porous nanosheets (several micrometers in size) with a typical surface anisotropy on two sides. Meanwhile, lots of triangular intervoids (4.0–5.0 nm in size) can also be found among each three semiopened mesopores, enabling the nanosheet to be interconnected. Vitally, such interconnected, anisotropic porous nanosheets exhibit ultrahigh accessible surface area (∼714 m 2 g –1 ) and good lipophilicity properties owing to the abundant semiopened mesopores. Additionally, besides the nanosheet, the configuration of the asymmetric porous structure can also be transformed into a microcapsule when controlling the emulsification size via a facile ultrasonic treatment. As a demonstration, we show that the asymmetric microcapsule shows a high demulsification efficiency (>98%) and cyclic stability (>6 recycle times). Our protocol opens up a new avenue for developing next-generation asymmetric mesoporous materials for various applications.

Topics & Concepts

ChemistryMesoporous materialMicelleMonolayerEmulsionSelf-assemblyChemical engineeringDual (grammatical number)NanotechnologyOrganic chemistryCatalysisAqueous solutionMaterials scienceArtEngineeringBiochemistryLiteratureMesoporous Materials and CatalysisSupramolecular Self-Assembly in MaterialsCovalent Organic Framework Applications