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Active biopolymers in green non-conventional media: a sustainable tool for developing clean chemical processes

dc.contributor.authorLozano, Pedro
dc.contributor.authorBernal, Juana M.
dc.contributor.authorNieto Cerón, Susana
dc.contributor.authorGómez, Celia
dc.contributor.authorGarcia-Verdugo, Eduardo
dc.contributor.authorLuis, Santiago V.
dc.date.accessioned2016-04-29T09:15:41Z
dc.date.available2016-04-29T09:15:41Z
dc.date.issued2015-10-15
dc.identifier.citationLOZANO, Pedro, et al. Active biopolymers in green non-conventional media: a sustainable tool for developing clean chemical processes. Chemical Communications, 2015, vol. 51, no 98, p. 17361-17374ca_CA
dc.identifier.issn1359-7345
dc.identifier.urihttp://hdl.handle.net/10234/159024
dc.description.abstractThe greenness of chemical processes turns around two main axes: the selectivity of catalytic transformations, and the separation of pure products. The transfer of the exquisite catalytic efficiency shown by enzymes in nature to chemical processes is an important challenge. By using appropriate reaction systems, the combination of biopolymers with supercritical carbon dioxide (scCO2) and ionic liquids (ILs) resulted in synergetic and outstanding platforms for developing (multi)catalytic green chemical processes, even under flow conditions. The stabilization of biocatalysts, together with the design of straightforward approaches for separation of pure products including the full recovery and reuse of enzymes/ILs systems, are essential elements for developing clean chemical processes. By understanding structure–function relationships of biopolymers in ILs, as well as for ILs themselves (e.g. sponge-like ionic liquids, SLILs; supported ionic liquids-like phases, SILLPs, etc.), several integral green chemical processes of (bio)catalytic transformation and pure product separation are pointed out (e.g. the biocatalytic production of biodiesel in SLILs, etc.). Other developments based on DNA/ILs systems, as pathfinder studies for further technological applications in the near future, are also considered.ca_CA
dc.description.sponsorShipThis work was partially supported by the Fundación SENECA-CARM 19278/PI/14, PROMETEO/2012/020 and UJI P1-1B2013-37 grants.ca_CA
dc.format.extent14 p.ca_CA
dc.format.mimetypeapplication/pdfca_CA
dc.language.isoengca_CA
dc.publisherRoyal Society of Chemistryca_CA
dc.relation.isPartOfChemical Communications, 2015, vol. 51, no 98ca_CA
dc.rightsThis journal is © The Royal Society of Chemistry 2015ca_CA
dc.rights.urihttp://rightsstatements.org/vocab/InC/1.0/*
dc.subjectacetophenoneca_CA
dc.subjectbiodieselca_CA
dc.subjectbiopolymerca_CA
dc.subjectcarbon dioxideca_CA
dc.subjectcelluloseca_CA
dc.subjectenzymeca_CA
dc.subjectimmobilized enzymeca_CA
dc.subjectionic liquidca_CA
dc.subjectpalladiumca_CA
dc.subjectbiocatalysisca_CA
dc.subjectbiocatalystca_CA
dc.subjectbiotransformationca_CA
dc.subjectcatalytic efficiencyca_CA
dc.subjectchemical reactionca_CA
dc.subjectcontinuous flow reactorca_CA
dc.subjectDNA degradationca_CA
dc.subjectenzyme activityca_CA
dc.subjectenzyme immobilizationca_CA
dc.subjectenzyme inactivationca_CA
dc.subjecthydrogen bondca_CA
dc.subjecthydrogenationca_CA
dc.subjectliquid liquid extractionca_CA
dc.subjectpacked bed reactorca_CA
dc.subjectprotein conformationca_CA
dc.subjectroom temperatureca_CA
dc.subjectsaccharificationca_CA
dc.subjectstructure activity relationca_CA
dc.subjectsupercritical fluidca_CA
dc.titleActive biopolymers in green non-conventional media: a sustainable tool for developing clean chemical processesca_CA
dc.typeinfo:eu-repo/semantics/articleca_CA
dc.identifier.doihttp://dx.doi.org/10.1039/C5CC07600E
dc.rights.accessRightsinfo:eu-repo/semantics/restrictedAccessca_CA
dc.relation.publisherVersionhttp://pubs.rsc.org/en/content/articlehtml/2015/cc/c5cc07600eca_CA


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