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Publication DateElectrochimica Acta, ISSN 0013-4686, 11/2012, Volume 82, pp. 191 - 202
In this mini-review we briefly describe some historical developments made in the field of enzymatic fuel cells (FCs), discussing important design...
Direct electron transfer | Ex vivo situations | Implantable biodevices | Enzymatic fuel cells | Smart electronic contact lenses | ELECTROCHEMISTRY | CRYSTAL-STRUCTURE | GLUCOSE/OXYGEN BIOFUEL CELL | CARBON NANOTUBES | GRAPHITE-ELECTRODES | CYTOCHROME-C | DIRECT BIOELECTROCATALYSIS | MULTICOPPER OXIDASES | BILIRUBIN OXIDASE | CELLOBIOSE DEHYDROGENASE | GOLD NANOPARTICLE | Oxidases | Phosphates | Hydrogen peroxide | Prosthesis | Fuel cell industry | Nanotubes | Bilirubin | Glucose | Fructose | Dextrose | Cytochrome c | Implants, Artificial | Analysis | Fuel cells | Physiological aspects | Peroxidase | Electron transport | Human | Anodic | Fluid dynamics | Fluid flow | Electron transfer | Blood | INTERDISCIPLINARY RESEARCH AREAS | TVÄRVETENSKAPLIGA FORSKNINGSOMRÅDEN | Sciences
Direct electron transfer | Ex vivo situations | Implantable biodevices | Enzymatic fuel cells | Smart electronic contact lenses | ELECTROCHEMISTRY | CRYSTAL-STRUCTURE | GLUCOSE/OXYGEN BIOFUEL CELL | CARBON NANOTUBES | GRAPHITE-ELECTRODES | CYTOCHROME-C | DIRECT BIOELECTROCATALYSIS | MULTICOPPER OXIDASES | BILIRUBIN OXIDASE | CELLOBIOSE DEHYDROGENASE | GOLD NANOPARTICLE | Oxidases | Phosphates | Hydrogen peroxide | Prosthesis | Fuel cell industry | Nanotubes | Bilirubin | Glucose | Fructose | Dextrose | Cytochrome c | Implants, Artificial | Analysis | Fuel cells | Physiological aspects | Peroxidase | Electron transport | Human | Anodic | Fluid dynamics | Fluid flow | Electron transfer | Blood | INTERDISCIPLINARY RESEARCH AREAS | TVÄRVETENSKAPLIGA FORSKNINGSOMRÅDEN | Sciences
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Loading RightsAdvances in biochemical engineering/biotechnology, ISSN 0724-6145, 2019, Volume 167, pp. 15 - 38
This chapter summarizes in the beginning our current understanding of extracellular electron transport processes in organisms belonging to the genera...
c-type cytochromes | Direct interspecies electron transfer (DIET) | Extended respiratory chain | Microbial fuel cell | Electron transfer network | Geobacter | Shewanella
c-type cytochromes | Direct interspecies electron transfer (DIET) | Extended respiratory chain | Microbial fuel cell | Electron transfer network | Geobacter | Shewanella
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Loading RightsEnergy and Environmental Science, ISSN 1754-5692, 07/2012, Volume 5, Issue 7, pp. 7704 - 7717
Water oxidation is a key half reaction in energy conversion schemes based on solar fuels and targets such as light driven water splitting or carbon dioxide...
EXCITED-STATE | ENERGY & FUELS | FLASH-PHOTOLYSIS | RUTHENIUM | REDOX PROPERTIES | CHEMISTRY, MULTIDISCIPLINARY | DONOR SIDE | COORDINATION-COMPOUNDS | ENGINEERING, CHEMICAL | SINGLE-SITE | ENVIRONMENTAL SCIENCES | PHOTOSYSTEM-II | METAL-COMPLEXES | SOLAR-ENERGY CONVERSION | Pathways | Catalysts | Energy conversion | Electron transfer | Oxides | Activation | Direct power generation | Oxidation | catalysis (homogeneous), catalysis (heterogeneous), bio-inspired, hydrogen and fuel cells, materials and chemistry by design, synthesis (novel materials)
EXCITED-STATE | ENERGY & FUELS | FLASH-PHOTOLYSIS | RUTHENIUM | REDOX PROPERTIES | CHEMISTRY, MULTIDISCIPLINARY | DONOR SIDE | COORDINATION-COMPOUNDS | ENGINEERING, CHEMICAL | SINGLE-SITE | ENVIRONMENTAL SCIENCES | PHOTOSYSTEM-II | METAL-COMPLEXES | SOLAR-ENERGY CONVERSION | Pathways | Catalysts | Energy conversion | Electron transfer | Oxides | Activation | Direct power generation | Oxidation | catalysis (homogeneous), catalysis (heterogeneous), bio-inspired, hydrogen and fuel cells, materials and chemistry by design, synthesis (novel materials)
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Loading RightsAngewandte Chemie International Edition, ISSN 1433-7851, 05/2011, Volume 50, Issue 22, pp. 5018 - 5022
A radical outlook: Recently published “organocatalytic CH activation reactions” have now been interpreted as base‐promoted homolytic substitutions. The...
organocatalysis | CH activation | homolytic radical substitutions | aryl radicals | radical anions | C-H activation | SILYLATED CYCLOHEXADIENES | BOND FORMATION | PROMOTED AROMATIC ALKYLATIONS | UNACTIVATED ARENES | BU3SNH | TRANSITION-METALS | CHEMISTRY, MULTIDISCIPLINARY | CYCLIZATIONS | ARYL HALIDES | SUBSTITUTION REACTIONS | CATALYZED DIRECT ARYLATION
organocatalysis | CH activation | homolytic radical substitutions | aryl radicals | radical anions | C-H activation | SILYLATED CYCLOHEXADIENES | BOND FORMATION | PROMOTED AROMATIC ALKYLATIONS | UNACTIVATED ARENES | BU3SNH | TRANSITION-METALS | CHEMISTRY, MULTIDISCIPLINARY | CYCLIZATIONS | ARYL HALIDES | SUBSTITUTION REACTIONS | CATALYZED DIRECT ARYLATION
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Carbon cloth stimulates direct interspecies electron transfer in syntrophic co-cultures
Bioresource Technology, ISSN 0960-8524, 12/2014, Volume 173, pp. 82 - 86
This study investigated the possibility that the electrical conductivity of carbon cloth accelerates direct interspecies electron transfer (DIET) in...
Syntrophy | Carbon cloth | Methanosarcina | Geobacter | Direct interspecies electron transfer | ENERGY & FUELS | GEOBACTER-SULFURREDUCENS | SOLID-WASTE | PACKED-BED REACTOR | ANAEROBIC-DIGESTION | HYDROGEN | METHANOSAETA | AGRICULTURAL ENGINEERING | MICROBIAL-POPULATION | REDUCTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | GROWTH | SP-NOV | Symbiosis | Electron Transport | Oxidation-Reduction | Membranes, Artificial | Cell Communication - physiology | Materials Testing | Electric Conductivity | Coculture Techniques - methods | Microbial Consortia | Carbon - chemistry | Physiological aspects | Electron transport | Electrical conductivity | Electric properties | Diets | Desulfovibrio | Resistivity | Cloth | Electron transfer | Electrically conductive | Metabolism | Carbon
Syntrophy | Carbon cloth | Methanosarcina | Geobacter | Direct interspecies electron transfer | ENERGY & FUELS | GEOBACTER-SULFURREDUCENS | SOLID-WASTE | PACKED-BED REACTOR | ANAEROBIC-DIGESTION | HYDROGEN | METHANOSAETA | AGRICULTURAL ENGINEERING | MICROBIAL-POPULATION | REDUCTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | GROWTH | SP-NOV | Symbiosis | Electron Transport | Oxidation-Reduction | Membranes, Artificial | Cell Communication - physiology | Materials Testing | Electric Conductivity | Coculture Techniques - methods | Microbial Consortia | Carbon - chemistry | Physiological aspects | Electron transport | Electrical conductivity | Electric properties | Diets | Desulfovibrio | Resistivity | Cloth | Electron transfer | Electrically conductive | Metabolism | Carbon
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Loading RightsPhysical Chemistry Chemical Physics, ISSN 1463-9076, 07/2016, Volume 18, Issue 28, pp. 18657 - 18664
Usually the rates for electron transfer (kET) decrease with increasing donor-acceptor distance, but Marcus theory predicts a regime in which kET is expected to...
Physical chemistry | Energy conversion | Electron transfer | Direct power generation | Gaussian | Maxima | Free energy
Physical chemistry | Energy conversion | Electron transfer | Direct power generation | Gaussian | Maxima | Free energy
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Biosensors and Bioelectronics, ISSN 0956-5663, 2005, Volume 20, Issue 12, pp. 2517 - 2554
The electrochemistry of some copper-containing proteins and enzymes, viz. azurin, galactose oxidase, tyrosinase (catechol oxidase), and the “blue” multicopper...
Ceruloplasmin | Graphite electrode | Azurin | T1, T2 and T3 sites | Hemocyanin | Gold electrode | Galactose oxidase | Bilirubin oxidase | Ascorbate oxidase | Direct electron transfer | Redox potential | Tyrosinase | Laccase | ELECTROCHEMISTRY | ceruloplasmin | CHEMISTRY, ANALYTICAL | RHUS-VERNICIFERA LACCASE | graphite electrode | CUCURBITA-PEPO-MEDULLOSA | azurin | RAY CRYSTAL-STRUCTURE | gold electrode | CUCUMBER ASCORBATE OXIDASE | LIVER SULFITE OXIDASE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | SPECTROGRAPHIC GRAPHITE ELECTRODE | bilirubin oxidase | OXIDATION-REDUCTION POTENTIALS | MODIFIED GOLD ELECTRODES | redox potential | NANOSCIENCE & NANOTECHNOLOGY | tyrosinase | galactose oxidase | direct electron transfer | BASIDIOMYCETE CORIOLUS-HIRSUTUS | CYTOCHROME-C-OXIDASE | BIOPHYSICS | ascorbate oxidase | laccase | hemocyanin | Electrodes | Enzymes, Immobilized - chemistry | Electron Transport | Copper - chemistry | Adsorption | Coated Materials, Biocompatible - chemistry | Protein Binding | Biosensing Techniques - instrumentation | Biosensing Techniques - methods | Proteins - chemistry | Electrochemistry - methods | Electrochemistry - instrumentation | Oxidases | Electrochemical reactions | Catechin | Electrochemistry | Bilirubin | Galactose | Electron transport | Analytical Chemistry | Naturvetenskap | Natural Sciences | Analytisk kemi | Kemi | Chemical Sciences
Ceruloplasmin | Graphite electrode | Azurin | T1, T2 and T3 sites | Hemocyanin | Gold electrode | Galactose oxidase | Bilirubin oxidase | Ascorbate oxidase | Direct electron transfer | Redox potential | Tyrosinase | Laccase | ELECTROCHEMISTRY | ceruloplasmin | CHEMISTRY, ANALYTICAL | RHUS-VERNICIFERA LACCASE | graphite electrode | CUCURBITA-PEPO-MEDULLOSA | azurin | RAY CRYSTAL-STRUCTURE | gold electrode | CUCUMBER ASCORBATE OXIDASE | LIVER SULFITE OXIDASE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | SPECTROGRAPHIC GRAPHITE ELECTRODE | bilirubin oxidase | OXIDATION-REDUCTION POTENTIALS | MODIFIED GOLD ELECTRODES | redox potential | NANOSCIENCE & NANOTECHNOLOGY | tyrosinase | galactose oxidase | direct electron transfer | BASIDIOMYCETE CORIOLUS-HIRSUTUS | CYTOCHROME-C-OXIDASE | BIOPHYSICS | ascorbate oxidase | laccase | hemocyanin | Electrodes | Enzymes, Immobilized - chemistry | Electron Transport | Copper - chemistry | Adsorption | Coated Materials, Biocompatible - chemistry | Protein Binding | Biosensing Techniques - instrumentation | Biosensing Techniques - methods | Proteins - chemistry | Electrochemistry - methods | Electrochemistry - instrumentation | Oxidases | Electrochemical reactions | Catechin | Electrochemistry | Bilirubin | Galactose | Electron transport | Analytical Chemistry | Naturvetenskap | Natural Sciences | Analytisk kemi | Kemi | Chemical Sciences
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Loading RightsJournal of the American Chemical Society, ISSN 0002-7863, 07/2013, Volume 135, Issue 26, pp. 9797 - 9804
Copper(II)-mediated C–H oxidation is the subject of extensive interest in synthetic chemistry, but the mechanisms of many of these reactions are poorly...
PALLADIUM | ACTIVATION | DIRECT ARYLATION | N-CONFUSED PORPHYRIN | COPPER-CATALYZED OXIDATION | COMPLEXES | METALATION-DEPROTONATION MECHANISM | BOND FORMATION | TERMINAL ALKYNES | AROMATIC-SUBSTITUTION | CHEMISTRY, MULTIDISCIPLINARY | Organometallic Compounds - chemistry | Electron Transport | Molecular Structure | Copper - chemistry | Oxidation-Reduction | Organometallic Compounds - chemical synthesis | Computational chemistry | Organometallic compounds | Research | Chemical properties | Copper oxide | Electron transport | Cuprite
PALLADIUM | ACTIVATION | DIRECT ARYLATION | N-CONFUSED PORPHYRIN | COPPER-CATALYZED OXIDATION | COMPLEXES | METALATION-DEPROTONATION MECHANISM | BOND FORMATION | TERMINAL ALKYNES | AROMATIC-SUBSTITUTION | CHEMISTRY, MULTIDISCIPLINARY | Organometallic Compounds - chemistry | Electron Transport | Molecular Structure | Copper - chemistry | Oxidation-Reduction | Organometallic Compounds - chemical synthesis | Computational chemistry | Organometallic compounds | Research | Chemical properties | Copper oxide | Electron transport | Cuprite
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Loading RightsScientific Reports, ISSN 2045-2322, 08/2016, Volume 6, Issue 1, p. 32327
ZnO-nanorods/graphene heterostructure was synthesized by hydrothermal growth of ZnO nanorods on chemically reduced graphene (CRG) film. The hybrid structure...
THIN-FILMS | PLATFORM | WORK FUNCTION | ENZYMES | MULTIDISCIPLINARY SCIENCES | ZINC-OXIDE | DIRECT ELECTROCHEMISTRY | SENSOR | GOLD NANOPARTICLE | CARBON NANOTUBES | IMMOBILIZATION | Electrodes | Glucose Oxidase - chemistry | Gold - chemistry | Nanotubes - chemistry | Enzymes, Immobilized - chemistry | Conductometry | Zinc Oxide - chemistry | Humans | Biosensing Techniques | Graphite - chemistry | Glucose - isolation & purification | Electron transfer | Glucose oxidase | Biosensors
THIN-FILMS | PLATFORM | WORK FUNCTION | ENZYMES | MULTIDISCIPLINARY SCIENCES | ZINC-OXIDE | DIRECT ELECTROCHEMISTRY | SENSOR | GOLD NANOPARTICLE | CARBON NANOTUBES | IMMOBILIZATION | Electrodes | Glucose Oxidase - chemistry | Gold - chemistry | Nanotubes - chemistry | Enzymes, Immobilized - chemistry | Conductometry | Zinc Oxide - chemistry | Humans | Biosensing Techniques | Graphite - chemistry | Glucose - isolation & purification | Electron transfer | Glucose oxidase | Biosensors
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Loading RightsBioresource Technology, ISSN 0960-8524, 11/2017, Volume 244, Issue Pt 1, pp. 698 - 707
Direct interspecies electron transfer (DIET) is a recently discovered microbial syntrophy where cell-to-cell electron transfer occurs between syntrophic...
Direct interspecies electron transfer (DIET) | Conductive material | Anaerobic digestion | Methanogenesis | LONG-TERM | ORGANIC LOADING RATE | ENERGY & FUELS | MICROBIAL FUEL-CELL | CO-DIGESTION | GRANULAR ACTIVATED CARBON | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | WASTE-WATER | DAIRY EFFLUENT | METHANE PRODUCTION | SYNTROPHIC METABOLISM | SLUDGE | Methane | Bacteria | Electron Transport | Bioreactors | Archaea | Electrons | Electron transport | Electrical conductivity | Green technology | Electric properties
Direct interspecies electron transfer (DIET) | Conductive material | Anaerobic digestion | Methanogenesis | LONG-TERM | ORGANIC LOADING RATE | ENERGY & FUELS | MICROBIAL FUEL-CELL | CO-DIGESTION | GRANULAR ACTIVATED CARBON | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | WASTE-WATER | DAIRY EFFLUENT | METHANE PRODUCTION | SYNTROPHIC METABOLISM | SLUDGE | Methane | Bacteria | Electron Transport | Bioreactors | Archaea | Electrons | Electron transport | Electrical conductivity | Green technology | Electric properties
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Loading RightsChemCatChem, ISSN 1867-3880, 04/2016, Volume 8, Issue 7, pp. 1242 - 1263
C−H functionalization has been established as a powerful strategy for the commercial construction of organic molecules. This review encompasses the most recent...
cobalt | C−H activation | concerted metalation–deprotonation | organometallic catalysis | single electron transfer | concerted metalation-deprotonation | C-H activation | DIRECT ARYLATION | CHEMISTRY, PHYSICAL | TERMINAL ALKYNES | SELECTIVE ACCESS | CARBON-HYDROGEN BONDS | H/C-O CLEAVAGE | COBALT(III)-CATALYZED ARYL | MILD CONDITIONS | COUPLING REACTIONS | N-TYPE REACTIONS | AMINOQUINOLINE BENZAMIDES | Electron transport | Cobalt | Catalysis
cobalt | C−H activation | concerted metalation–deprotonation | organometallic catalysis | single electron transfer | concerted metalation-deprotonation | C-H activation | DIRECT ARYLATION | CHEMISTRY, PHYSICAL | TERMINAL ALKYNES | SELECTIVE ACCESS | CARBON-HYDROGEN BONDS | H/C-O CLEAVAGE | COBALT(III)-CATALYZED ARYL | MILD CONDITIONS | COUPLING REACTIONS | N-TYPE REACTIONS | AMINOQUINOLINE BENZAMIDES | Electron transport | Cobalt | Catalysis
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