Fine-tuning of gas uptake and selectivity in a hexafluorozirconate pillared coordination network that features two porous phases†
Hybrid coordination networks, sustained by divalent transition metal ions and a combination of organic and inorganic linker ligands, are an emerging class of physisorbents for adsorptive gas and vapour capture, especially under trace (≤1%) concentrations. Herein, we report a Cu(II) hybrid coordination network using the anionic pillar hexafluorozirconate ZrF6 2− , [Cu(pypz)2ZrF6]n; ZRFSIX-21-Cu (21 = 4-(3,5-dimethyl-1H-pyrazol-4-yl)pyridine). ZRFSIX-21-Cu possesses two ultramicroporous phases, a two-dimensional square lattice phase (α), and a three-dimensional primitive cubic unit phase (β), a rarity among hybrid ultramicroporous materials. Interestingly, ZRFSIX-21-Cu-α revealed better selectivity for C2H2 over CO2, and ZRFSIX-21-Cu-β for C2H2 over C2H4
Funding
Ionic Ultramicroporous Polymer Adsorbents for Energy-efficient Purification of Commodity Chemicals
Science Foundation Ireland
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Publication
CrystEngCommPublisher
The Royal Society of ChemistryOther Funding information
SSPC Reward funding MacDiarmid Institute for Advanced Materials and Nanotechnology, and the School of Physical and Chemical Science at the University of CanterburyAlso affiliated with
- Bernal Institute
- Synthesis and Solid State Pharmaceutical Centre
External identifier
Department or School
- Chemical Sciences
