NH2-MIL-125 Nanosheets Prepared via Crystallization Kinetics Modulation for Ultrathin Membrane Fabrication

Chem & Bio Engineering Pub Date : 2024-07-29 DOI:10.1021/cbe.4c0010310.1021/cbe.4c00103
Yanwei Sun, Jiahui Yan, Mingming Wu, Jie Jiang and Yi Liu*, 
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Abstract

Regulating both crystallographic orientation and thickness of titanium metal–organic framework (Ti-MOF) membranes remains a significant challenge. In this study, we pioneered the fabrication of uniform 29 nm thick NH2-MIL-125 nanosheet seeds by employing crystallization kinetics modulation approach. Through innovating confined counter-diffusion-assisted epitaxial growth under single-mode microwave heating, a highly c-oriented 80 nm thick NH2-MIL-125 membrane was prepared. Significant reduction in thickness endowed the membrane with unprecedented H2 permeance (1350 GPU) along with considerable H2/CO2 selectivity (19.1), exceeding the performance benchmarks of state-of-the-art NH2-MIL-125 membranes.

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通过结晶动力学调控制备 NH2-MIL-125 纳米片,用于超薄膜制造
调节钛金属有机框架(Ti-MOF)膜的结晶取向和厚度仍然是一项重大挑战。在本研究中,我们率先采用结晶动力学调控方法制备了厚度为 29 纳米的均匀 NH2-MIL-125 纳米片种子。在单模微波加热条件下,通过创新性的限制反扩散辅助外延生长,制备出了 80 nm 厚的高 c 型 NH2-MIL-125 膜。膜厚度的显著降低使其具有前所未有的 H2 渗透率(1350 GPU)和相当高的 H2/CO2 选择性(19.1),超过了最先进的 NH2-MIL-125 膜的性能基准。
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阿拉丁
n-hexylamine
阿拉丁
triethylamine (TEA)
阿拉丁
Titanium isopropoxide
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Chem & Bio Engineering
Chem & Bio Engineering
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