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Article Abstract
The global demand for poly-grade ethylene (CH) is increasing annually. However, the energy-saving purification of this gas remains a major challenge due to the similarity in molecular properties among the ternary C2 hydrocarbons. To address this challenge, we report an approach of systematic tuning of the pore environment with organic sites (from -COOH to -CF, then to -CH) in porous coordination polymers (PCPs), of which NTU-73-CH shows remarkable capability for the direct production of poly-grade CH from ternary C2 hydrocarbons under ambient conditions. In comparison, the precursor structure of NTU-73-COOH is unable to purify CH, while NTU-73-CF shows minimal ability to harvest CH. This is because the changed binding sites in the NTU-73-series not only eliminate the channel obstruction caused by the formation of gas clusters, but also enhance the interaction with acetylene (CH) and ethane (CH), as validated by crystallographic and Raman analysis. Our findings, in particular the systematic tuning of the pore environment and the efficient CH purification by NTU-73-CH, provide a blueprint for the creation of advanced porous families that can handle desired tasks.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11186340 | PMC |
| http://dx.doi.org/10.1039/d4sc02659d | DOI Listing |
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