通过核磁共振原位检测混合基质膜中聚合物向金属有机框架的渗透

Polymer Infiltration into Metal-Organic Frameworks in Mixed-Matrix Membranes Detected in Situ by NMR.

作者信息

Duan Pu, Moreton Jessica C, Tavares Sergio R, Semino Rocio, Maurin Guillaume, Cohen Seth M, Schmidt-Rohr Klaus

机构信息

Department of Chemistry , Brandeis University , Waltham , Massachusetts 02453 , United States.

Department of Chemistry and Biochemistry , University of California, San Diego , La Jolla , California 92093 , United States.

出版信息

J Am Chem Soc. 2019 May 8;141(18):7589-7595. doi: 10.1021/jacs.9b02789. Epub 2019 Apr 26.

DOI:10.1021/jacs.9b02789

PMID:30973014

Abstract

Solid-state NMR has been used to study mixed-matrix membranes (MMMs) prepared with a metal-organic framework (MOF, UiO-66) and two different high molecular weight polymers (PEO and PVDF). C and H NMR data provide overwhelming evidence that most UiO-66 organic linkers are within 1 nm of PEO, which indicates that PEO is homogeneously distributed throughout the MOF. Systematic changes in MOF C NMR peak positions and H NMR line widths, as well as dramatic reductions in the MOF H T relaxation times, are observed as the PEO content increases, and when the pores have been filled, a further increase in PEO results in the formation of semicrystalline PEO outside the UiO-66 particles. In contrast, similar studies on PVDF MMMs show that the polymer contacts only a small fraction (<20%) of the MOF linkers. Simulations confirm that PEO penetrates into UiO-66 more easily than does PVDF. These studies are among the first to provide experimental insights into MOF-polymer interactions in an MMM.

摘要

固态核磁共振已被用于研究由金属有机框架（MOF，UiO - 66）和两种不同的高分子量聚合物（PEO和PVDF）制备的混合基质膜（MMM）。碳和氢核磁共振数据提供了压倒性的证据，表明大多数UiO - 66有机连接体距离PEO在1纳米以内，这表明PEO在整个MOF中均匀分布。随着PEO含量的增加，观察到MOF碳核磁共振峰位置和氢核磁共振线宽的系统性变化，以及MOF氢横向弛豫时间的显著缩短，并且当孔被填满时，PEO的进一步增加会导致在UiO - 66颗粒外部形成半结晶PEO。相比之下，对PVDF MMM的类似研究表明，聚合物仅与一小部分（<20%）的MOF连接体接触。模拟结果证实，PEO比PVDF更容易渗透到UiO - 66中。这些研究是首批为MMM中MOF - 聚合物相互作用提供实验见解的研究之一。

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通过核磁共振原位检测混合基质膜中聚合物向金属有机框架的渗透

Polymer Infiltration into Metal-Organic Frameworks in Mixed-Matrix Membranes Detected in Situ by NMR.

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