Abstract
Preparation of cellulose-polyamine composite films and beads, which provide high loading of primary amines on the surface allowing direct one-step bioconjugation of active species, is reported using an ionic liquid (IL) dissolution and regeneration process. Films and bead architectures were prepared and used as immobilization supports for laccase as a model system demonstrating the applicability of this approach. Performance of these materials, compared to commercially available products, has been assessed using millimeter-sized beads of the composites and the lipase-catalyzed transesterification of ethyl butyrate.
Publication types
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Research Support, U.S. Gov't, Non-P.H.S.
MeSH terms
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Biocompatible Materials / chemistry*
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Bromides / chemistry
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Butanols / chemistry
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Butyrates / chemistry
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Catalysis
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Cellulose / chemistry*
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Electron Probe Microanalysis
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Enzymes, Immobilized
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Hydrazones / chemistry
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Ions
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Laccase / chemistry
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Lipase / chemistry
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Macromolecular Substances / chemistry
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Membranes, Artificial
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Microscopy, Electron, Scanning
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Models, Chemical
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Oxygen / metabolism
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Polyamines / chemistry
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Polymers / chemistry
Substances
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Biocompatible Materials
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Bromides
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Butanols
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Butyrates
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Enzymes, Immobilized
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Hydrazones
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Ions
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Macromolecular Substances
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Membranes, Artificial
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Polyamines
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Polymers
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syringaldazine
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Cellulose
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Laccase
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Lipase
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Oxygen
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ethyl butyrate