Titlebook: Bioelectrosynthesis; Falk Harnisch,Dirk Holtmann Book 2019 Springer Nature Switzerland AG 2019 electrobiotechnology.Photo-electrochemical

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Engineering of Microbial Electrodes,esis. First, important functional aspects and requirements of basic materials for microbial electrodes are introduced, including the meaningful benchmarking of electrode performance, a comparison of electrode materials, and methods to improve microbe–electrode interaction. Suitable current collector

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Mixed Culture Biocathodes for Production of Hydrogen, Methane, and Carboxylates,s, these products can be formed at certain cathode potentials using specific operating conditions, of which pH is important. Thermodynamically, the reduction of CO. to methane is the most favorable reaction, followed by reduction of CO. to acetate and ethanol, and hydrogen. In practice, however, the

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Modeling Microbial Electrosynthesis,xperimental research. By describing and linking compartments, components, and processes with appropriate mathematical equations, MES and the corresponding bioelectrodes and complete bioelectrochemical systems can be analyzed and predicted across several temporal and local scales. Thereby, insights i

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Generating Electric Current by Bioartificial Photosynthesis,icial photosynthesis, which is a new subset of bioelectrochemical systems (BESs) and technologies. BES technologies exploit the catalytic interactions between biological moieties and electrodes. At the nexus of BES and photovoltaics, this review focuses on light-harvesting technologies based on bioa

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Andrea Geile,Reinhard Hünerbergecause most electroenzymatic syntheses suffer from low productivity, we discuss reaction engineering concepts to overcome the main limiting factors, with a focus on media conductivity optimization, approaches to prevent enzyme inactivation, and the application of advanced cell designs.

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Grundlagen und theoretische Bezugspunkte,ts, components and processes, appropriate model strategies, and a discussion on potential modeling pitfalls. By adapting an established approach to assessing the energetics of microorganism, an instruction for calculating stoichiometry, thermodynamics, and kinetics, with the example of electro-autot