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Nanomaterials for Biocatalysis explains the fundamental design concepts and emerging applications of nanoscale biocatalysts, such as bioconversions, bioelectronics, biosensors, biocomputing and therapeutic applications. Nano-biocatalysts refers to the incorporation of enzymes into nanomaterials. These enzyme-enhanced nanocarriers have many advantages, including low mass transfer limitation, high enzyme capacity, better stabilization, and the formation of single-enzyme nanoparticles. Smart nanocontainers have been developed for the smart release of their embedded active substances. These smart releases can be obtained by using smart coatings as their outer nanoshells. In addition, these nanocontainers could protect the enzymes from chemical or metabolic alterations on their delivering pathways towards the target. This is an important reference source for materials scientists and chemical engineers who want to know more about how nanomaterials are being used for biocatalysis applications.
Nanobiocatalysis: An introduction
Nanomaterials for enzyme immobilization
Enzyme in nanocarrierss: Mathematical modeling and simulations
Mechanisms of interaction of enzymes and supports
Nanomaterials based artificial enzymes
Carbon nanotubes/nanorods
Gold Nanoparticles in biocatalysis
Graphene oxides nanoparticles in biocatalysis
Silica nanoparticles in biocatalysis
Metal oxide nanoparticles in biocatalysis
Nanostructured organic supports
Metal organic frameworks for biocatalysis
Nanobiocatalysists for Bioelectronics and Biosensors
Nanobiocatalysists for Therapeutic applications
Nanobiocatalysists for Biotransformations and biodegradations
Nanobiocatalysists for Drug delivery
Nanobiocatalysists for Biofuel cells
Nanobiocatalysists for Stem Cell Applications
Nanobiocatalysists for Future trends
Current pilot scale and industrial scale up applications
Nanobiocatalysists: Conclusion and Future trends