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The impact of solution vs. slurry vs. mechanochemical syntheses upon the sorption performance of a 2D switching coordination network
Date
2023
Abstract
The selection and optimization of synthesis routes for porous metal–organic materials are critical for their large-scale manufacture but remain largely underexplored. In this study, we compare mechanochemistry vs. slurry vs. solution methods for the synthesis of a 1D chain coordination polymer {[Co(bpy)(NCS)2(H2O)2]·bpy}n (chn-1-Co-NCS-H2O) that is an intermediate to the 2D switching coordination network [Co(bpy)2(NCS)2]n, sql-1-Co-NCS (1 = bpy = 4,4′-bipyridine). Although neat mechanosynthesis using Co(NCS)2 and bpy as the starting materials failed, both water slurry and water-assisted mechanochemical syntheses afforded the desired intermediate, chn-1-Co-NCS-H2O, in high yield. Nevertheless, the resulting sql-1-Co-NCS products were observed to exhibit different CO2 sorption profiles depending on the synthesis methods used to prepare chn-1-Co-NCS-H2O. This study reveals that water can play an important role in mechanosynthesis, not only by inducing and accelerating the reaction process, but also by enhancing product quality in a manner that is not readily detectable by PXRD.
Supervisor
Description
Publisher
Royal Society of Chemistry
Citation
Inorganic Chemistry Frontiers
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Wang_2023_Impact.pdf
Adobe PDF, 1.48 MB
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Funding Information
We gratefully acknowledge the support of Science Foundation Ireland (16/IA/4624) and the Irish Research Council (IRCLA/2019/167