Metal-Organic Framework superstructures with long-ranged orientational order via E-field assisted liquid crystal assembly.

J Colloid Interface Sci

Faculty of Chemistry, Institute of Physical Chemistry, University of Vienna, Währingerstr. 42, Vienna A-1090, Austria. Electronic address:

Published: March 2022

Most MOFs are non-cubic, with functionality dependent upon crystallographic direction, and are largely prepared as microcrystalline powders. Therefore, general methods to orient and assemble free-standing MOF crystals are especially important and urgently needed. This is addressed here through the novel strategy of E-field assisted liquid crystal assembly, applied to MIL-53-NH(Al), MIL-68(In) and NU-1000 MOF crystals, with aspect ratios ranging from 10 to 1.2, to form highly oriented MOF superstructures which were photopolymerized to fix their long-ranged order. This new strategy for controlling MOF orientation and packing side-steps the traditional requirements of particle monodispersity, shape homogeneity and high aspect ratios (>4.7) typical of colloidal and liquid crystal assembly, and is applicable even to polydispersed MOF crystals, thereby paving the way towards the development of highly oriented MOF composites with improved functionality.

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Source
http://dx.doi.org/10.1016/j.jcis.2021.11.151DOI Listing

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