Bioelectrochemistry is a quick starting to be box on the interface among electrochemistry and different sciences resembling biochemistry, analytical chemistry and medicinal chemistry. within the fresh years, the equipment and the knowledge of the basics have noticeable major growth, which has ended in quick improvement within the field.
right here, the professional editors have rigorously chosen contributions to top replicate the most recent advancements during this scorching and speedily transforming into interdisciplinary subject. The ensuing first-class and well timed review of this multifaceted box covers contemporary methodological advances, in addition to a number of new purposes for analytical detection, drug screening, tumor treatment, and for power conversion in biofuel cells.
This publication is a must have for all Electrochemists, Biochemists, Analytical Chemists, and Medicinal Chemists.
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Extra info for Advances in Electrochemical Science and Engineering: Bioelectrochemistry, Volume 13
Typical membranes are polymethylcellulose, Naﬁon, hydrogels, polypyrrole, ophenylenediamine, polyeugenol, and other electrodepositable ﬁlms (conducting or nonconducting). However, this approach is used at the expense of biosensor response time. (ii) Use of suitable redox mediators allows operation at moderate potentials below the potential of abundant interferences such as ascorbic acid. (iii) The applied potential is a useful tool to discriminate between different electroactive species under the assumption that the redox waves are distinguishable.
Alternatively, reduction of peroxide can be the cathodic reaction in biofuel cells. Relying on the experience with peroxidase-modiﬁed electrodes in biosensor research, electrodes modiﬁed with peroxidases have been shown to be highly efﬁcient biocatalysts in biofuel cells [232, 233]. Microperoxidases that are truncated forms of cytochrome c have also been employed in biofuel cells  in which they convert hydrogen peroxide that is supplied by the enzymatic reaction of GOx with glucose and oxygen.
Though a signiﬁcant effort has been put into the research of this ﬁeld [265, 336, 337], the consequences of the use of nanomaterials in everyday life are not yet fully understood. It seems, however, that the potential risks of nanomaterials are by far outweighed by the possibilities offered by nanotechnology. 16, (electrochemical) biosensors are either placed in laboratory animals for fundamental (patho-)physiological and neurochemical in vivo measurements or implanted in the human body for health check purposes and metabolite monitoring.
Advances in Electrochemical Science and Engineering: Bioelectrochemistry, Volume 13