Two-Dimensional MFI Zeolite Nanosheets Exfoliated by Surfactant Assisted Solution Process

Aafaq Ur Rehman,Syed Fakhar Alam,Churl Hee Cho,Jungkyu Choi,Devipriyanka Arepalli,Min-Zy Kim

doi:10.3390/nano11092327

Aafaq Ur Rehman, Syed Fakhar Alam + Show 4 more

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https://doi.org/10.3390/nano11092327

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Journal: Nanomaterials	Publication Date: Sep 7, 2021
Citations: 9	License type: CC BY 4.0

Affiliation: Chungnam National University, Korea University

Abstract

Two-dimensional (2D) zeolite nanosheets are important for the synthesis of high flux zeolite membranes due to their lateral size in a preferred orientation. A way to obtain 2D zeolite nanosheets is to exfoliate interlocked structures generated during the hydrothermal synthesis. The mechanical and polymer assisted exfoliation process leads to mechanical damage in nanosheets and short lateral size. In the present study, polyvinylpyrrolidone (PVP) was introduced as an exfoliation agent and dispersant, so that multilamellar interlocked silicalite-1 zeolite nanosheets successfully exfoliated into a large lateral size (individual nanosheets 500~1200 nm). The good exfoliation behavior was due to the strong penetration of PVP into multilamellar nanosheets. Sonication assisted by mild milling helps PVP molecules to penetrate through the lamellar structure, contributing to the expansion of the distance between adjacent layers and thus decreasing the interactions between each layer. In addition, the stability of exfoliated nanosheets was evaluated with a series of organic solvents. The exfoliated nanosheets were well dispersed in n-butanol and stable for 30 days. Therefore, the PVP-assisted solution-based exfoliation process provides high aspect ratio MFI zeolite nanosheets in organic solvents for a long period.

Highlights

Published: 7 September 2021Zeolites are silica-based microporous materials with pore size range between 0.25 to2 nm
We studied the effect of PVP on the exfoliation of MFI nanosheets, and we present the stability of exfoliated nanosheets in organic solvents
The as-synthesized C22-6-6 was used as organic surfactant directing agent (OSDA) in the synthesis of MLSil-1Ns

Summary

Introduction

Published: 7 September 2021Zeolites are silica-based microporous materials with pore size range between 0.25 to2 nm. For optimal catalysis and separation, it is crucial to control the pore network to allow the targeted molecular traffic in the pores [1]. The ultra-thin zeolite films and nano-size zeolite sheets help in various processes, such as high-flux membrane separations, catalysis, sensors and the adsorption process [2,3]. Most of these challenges are overcome by decreasing their thickness to a few tens nm, which are called two-dimensional (2D) zeolites. Two-dimensional zeolites are very promising materials for catalysis due to reduction in diffusion length, enhancement in the catalytic activity and increase in the lifetime of zeolite catalysts [4]

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