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Graphene-based nanobiocatalytic systems: recent advances and future prospects
Graphene-based nanobiocatalytic systems: recent advances and future prospects
by Gournis, Dimitrios , Stamatis, Haralambos , Patila, Michaela , Bornscheuer, Uwe T. , Pavlidis, Ioannis V.
in Biodiesel fuels / biofuel cells / Biological and medical sciences / Bioreactors / Biotechnology / Carbon / catalytic activity / Contact angle / Dehydrogenases / Efficiency / Electrodes / enzyme immobilization / Enzymes / Enzymes, Immobilized - chemistry / enzyme–nanomaterial interactions / Fuel cells / Fundamental and applied biological sciences. Psychology / Glucose / graphene / graphene-based nanomaterials / Graphite - chemistry / Humans / Internal Medicine / mechanical properties / medicine / nanobiocatalysis / Nanomaterials / Nanostructured materials / Nanostructures - chemistry / Nanotechnology / Nanotechnology - methods / Proteins / Surface chemistry / Tissue engineering
2014
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Graphene-based nanobiocatalytic systems: recent advances and future prospects
by Gournis, Dimitrios , Stamatis, Haralambos , Patila, Michaela , Bornscheuer, Uwe T. , Pavlidis, Ioannis V.
in Biodiesel fuels / biofuel cells / Biological and medical sciences / Bioreactors / Biotechnology / Carbon / catalytic activity / Contact angle / Dehydrogenases / Efficiency / Electrodes / enzyme immobilization / Enzymes / Enzymes, Immobilized - chemistry / enzyme–nanomaterial interactions / Fuel cells / Fundamental and applied biological sciences. Psychology / Glucose / graphene / graphene-based nanomaterials / Graphite - chemistry / Humans / Internal Medicine / mechanical properties / medicine / nanobiocatalysis / Nanomaterials / Nanostructured materials / Nanostructures - chemistry / Nanotechnology / Nanotechnology - methods / Proteins / Surface chemistry / Tissue engineering
2014
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Graphene-based nanobiocatalytic systems: recent advances and future prospects
Graphene-based nanobiocatalytic systems: recent advances and future prospects
by Gournis, Dimitrios , Stamatis, Haralambos , Patila, Michaela , Bornscheuer, Uwe T. , Pavlidis, Ioannis V.
in Biodiesel fuels / biofuel cells / Biological and medical sciences / Bioreactors / Biotechnology / Carbon / catalytic activity / Contact angle / Dehydrogenases / Efficiency / Electrodes / enzyme immobilization / Enzymes / Enzymes, Immobilized - chemistry / enzyme–nanomaterial interactions / Fuel cells / Fundamental and applied biological sciences. Psychology / Glucose / graphene / graphene-based nanomaterials / Graphite - chemistry / Humans / Internal Medicine / mechanical properties / medicine / nanobiocatalysis / Nanomaterials / Nanostructured materials / Nanostructures - chemistry / Nanotechnology / Nanotechnology - methods / Proteins / Surface chemistry / Tissue engineering
2014

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Graphene-based nanobiocatalytic systems: recent advances and future prospects
Graphene-based nanobiocatalytic systems: recent advances and future prospects
Journal Article

Graphene-based nanobiocatalytic systems: recent advances and future prospects

Gournis, Dimitrios,
Stamatis, Haralambos,
Patila, Michaela,
Bornscheuer, Uwe T.,
Pavlidis, Ioannis V.
2014
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Overview
•Graphene-based nanomaterials are promising nanoscaffolds for biocatalytic systems.•Enzyme–nanomaterial interactions are crucial for biocatalytic behavior.•Several immobilization approaches have been developed.•Graphene-based nanomaterials have significant applications in biocatalytic transformations and bioelectronic devices. Graphene-based nanomaterials are particularly useful nanostructured materials that show great promise in biotechnology and biomedicine. Owing to their unique structural features, exceptional chemical, electrical, and mechanical properties, and their ability to affect the microenvironment of biomolecules, graphene-based nanomaterials are suitable for use in various applications, such as immobilization of enzymes. We present the current advances in research on graphene-based nanomaterials used as novel scaffolds to build robust nanobiocatalytic systems. Their catalytic behavior is affected by the nature of enzyme–nanomaterial interactions and, thus, the availability of methods to couple enzymes with nanomaterials is an important issue. We discuss the implications of such interactions along with future prospects and possible challenges in this rapidly developing area.
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Publisher
Elsevier Ltd,Cell Press,Elsevier Limited
Subject

Biodiesel fuels

/ biofuel cells

/ Biological and medical sciences

/ Bioreactors

/ Biotechnology

/ Carbon

/ catalytic activity

/ Contact angle

/ Dehydrogenases

/ Efficiency

/ Electrodes

/ enzyme immobilization

/ Enzymes

/ Enzymes, Immobilized - chemistry

/ enzyme–nanomaterial interactions

/ Fuel cells

/ Fundamental and applied biological sciences. Psychology

/ Glucose

/ graphene

/ graphene-based nanomaterials

/ Graphite - chemistry

/ Humans

/ Internal Medicine

/ mechanical properties

/ medicine

/ nanobiocatalysis

/ Nanomaterials

/ Nanostructured materials

/ Nanostructures - chemistry

/ Nanotechnology

/ Nanotechnology - methods

/ Proteins

/ Surface chemistry

/ Tissue engineering

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