Characterisation of Solute Mobility in Hypercross‐Linked Resins in Solvents of Different Polarity: Two Promising Supports for Catalysis |
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Authors: | Dr. Marco Bortolus Dr. Paolo Centomo Prof. Marco Zecca Dr. Karel Jeřábek Prof. Anna Lisa Maniero Prof. Benedetto Corain |
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Affiliation: | 1. Department of Chemical Sciences, Universitá degli Studi di Padova via Marzolo 1, 35131 Padova (Italy), Fax: (+39)?049‐827‐5829;2. Department of Catalysis and Reaction Engineering, Institute of Chemical Process Fundamentals, Rozvojová 135/1, 165 02 Praha‐Lysolaje (Czech Republic);3. Istituto di Scienze e Tecnologie Molecolari, CNR, Sezione Padova via Marzolo 1, 35131 Padova (Italy) |
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Abstract: | Two hypercross‐linked resins stemming from a gel‐type poly‐chloromethylated styrene‐divinylbenzene resin (GT) in beaded form are investigated with a combination of spectroscopic techniques (EPR and time‐domain (TD)‐NMR spectroscopy) to evaluate their use as supports for the development of operationally flexible heterogeneous metal catalysts, suitable to be employed in liquid and gas phase. The first resin (HGT) is the direct product of the hypercross‐linking reaction, whereas the second one (HGS) is the sulphonated analogue of HGT obtained by exchanging approximately 3 wt % of the chloromethyl groups with sulphonic groups. HGT and HGS absorb both polar and apolar solvents in the permanent nanoporosity created by the hypercross‐linking, and NMR data highlight that the pore size is not affected by the different properties of the investigated liquid media. The EPR analysis of the dry resins reveals that during the hypercross‐linking process paramagnetic species are formed in the HGT beads, which persist in the sulphonated resin. The mobility of solutes inside the polymers framework was investigated with EPR spectroscopy upon soaking the resins with solutions of two spin probes (2,2,6,6‐tetramethylpiperidine‐1‐oxyl (TEMPO) and 4‐hydroxy‐2,2,6,6‐tetramethylpiperidine‐1‐oxyl (TEMPOL)) in THF, toluene, n‐heptane and water. The EPR spectra show that, depending on the solvent, the two resins can act as sorbents, able to trap the solutes in the polymer framework, or as simple supports that allow free diffusion of the solutes. Our results suggest that HGT and HGS are promising supporting materials for metal catalysts, provided one chooses carefully the solvent to be employed for the catalysed reaction as this choice strongly affects the mobility of the substrates and, thus their effective reactivity. |
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Keywords: | absorption catalysis EPR spectroscopy functional resins NMR spectroscopy |
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