Journal
NEW JOURNAL OF CHEMISTRY
Volume 43, Issue 8, Pages 3476-3485Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8nj06090h
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Funding
- Spanish Ministerio de Ciencia e Innovacion [MAT2014-55049-C2-R, MAT2016-75883-C2-1-P]
- Universidad del Pais Vasco/EuskalHerrikoUnibertsitatea [GIU17/50, PPG17/37]
- Universidad de Cantabria (SODERCAN-FEDER)
- European Union's Horizon 2020 research and innovation programme through a Marie Skodowska-Curie Individual Fellowship (IF-EF
- Programme/Call: H2020-MSCA-IF-2015) [704710-Sdchirnanocat]
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The catalytic activity of two halometallate complexes based on imidazolium cations, (dimim)[FeCl4] (1) and (dimim)(2)[Fe2Cl6(mu-O)] (2), was evaluated in the glycolysis of polyethylene terephthalate (PET), either under conventional heating or microwave-assisted conditions. The two procedures led to the formation of bis(2-hydroxyethyl)terephthalate (BHET) as the major product with high yields, also allowing the isolation and structural characterization of a new polymorph. The influence of the halometallate structure on the catalytic activity was investigated, and additional experimental studies proved the involvement of both the imidazolium cation and metal anion in the reaction mechanism. The comparison of both approaches showed the advantages of the microwave methodology in terms of efficiency and time saving. Indeed, the use of ground PET and microwave heating provided quantitative yields of BHET. Under conventional heating conditions, the dinuclear iron complex gave a slightly lower yield than (dimim)[FeCl4] (74% vs. 77% for post-consumer PET) after 24 h of reaction. However, the microwave-assisted process led to comparable results in remarkably shorter reaction times (2 h). Interestingly, complex 2, containing the dipolar [Fe2Cl6(mu-O)](2-) moiety, provided higher yields than 1 with the non-dipolar [FeCl4](-) anion (77% vs. 69%). This behaviour has been rationalized on the basis of dielectric heating mechanisms (polarization and conduction), and it suggests a new approach towards obtaining more efficient catalysts by tailoring the catalytic species to be active in both heating mechanisms.
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