| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Ross D Milton | Q84328536 |
| Shelley D. Minteer | Q42169232 | ||
| P2093 | author name string | Shelley D Minteer | |
| Ross D Milton | |||
| P2860 | cites work | Reversible interconversion of carbon dioxide and formate by an electroactive enzyme | Q24652765 |
| Bilirubin oxidase from Myrothecium verrucaria: X-ray determination of the complete crystal structure and a rational surface modification for enhanced electrocatalytic O2 reduction | Q27667730 | ||
| Biofuel cells and their development | Q28304216 | ||
| Fully Enzymatic Membraneless Glucose|Oxygen Fuel Cell That Provides 0.275 mA cm(-2) in 5 mM Glucose, Operates in Human Physiological Solutions, and Powers Transmission of Sensing Data | Q31036147 | ||
| The mononuclear molybdenum enzymes | Q33840734 | ||
| Rational design of quinones for high power density biofuel cells. | Q33886469 | ||
| Multicopper Oxidases and Oxygenases | Q33957458 | ||
| Mechanism of Molybdenum Nitrogenase | Q34114433 | ||
| An implantable biofuel cell for a live insect | Q34246530 | ||
| Ferrocene-mediated enzyme electrode for amperometric determination of glucose | Q34267318 | ||
| Biosensors for direct determination of organophosphate pesticides | Q34272244 | ||
| Mechanism of oxidation reactions catalyzed by cytochrome p450 enzymes. | Q34346324 | ||
| An integrated photocatalytic/enzymatic system for the reduction of CO2 to methanol in bioglycerol-water. | Q34463337 | ||
| Quinoproteins: structure, function, and biotechnological applications | Q34520059 | ||
| Quinohemoprotein alcohol dehydrogenases: structure, function, and physiology | Q35826783 | ||
| Direct electron transfer between copper-containing proteins and electrodes. | Q36108071 | ||
| Recent progress in cytochrome P450 enzyme electrochemistry | Q36543111 | ||
| Nitrogenase bioelectrocatalysis: heterogeneous ammonia and hydrogen production by MoFe protein | Q57914923 | ||
| Changing the Ligation of the Distal [4Fe4S] Cluster in NiFe Hydrogenase Impairs Inter- and Intramolecular Electron Transfers | Q60211947 | ||
| Inhibition and Aerobic Inactivation Kinetics ofDesulfovibrio fructosovoransNiFe Hydrogenase Studied by Protein Film Voltammetry | Q60211950 | ||
| Polypyrrole-entrapped quinohemoprotein alcohol dehydrogenase. Evidence for direct electron transfer via conducting-polymer chains | Q78178084 | ||
| Shall we dance? How a multicopper oxidase chooses its electron transfer partner | Q80138462 | ||
| The limiting performance characteristics in bioelectrocatalysis of hydrogenase enzymes | Q80718184 | ||
| Design parameters for tuning the type 1 Cu multicopper oxidase redox potential: insight from a combination of first principles and empirical molecular dynamics simulations | Q83571053 | ||
| Self-regulating enzyme-nanotube ensemble films and their application as flexible electrodes for biofuel cells | Q83579570 | ||
| Effect of deglycosylation of cellobiose dehydrogenases on the enhancement of direct electron transfer with electrodes | Q85303736 | ||
| Direct electron transfer of Trametes hirsuta laccase adsorbed at unmodified nanoporous gold electrodes | Q85809851 | ||
| High current density PQQ-dependent alcohol and aldehyde dehydrogenase bioanodes | Q87337664 | ||
| Switching an O2 sensitive glucose oxidase bioelectrode into an almost insensitive one by cofactor redesign | Q87748797 | ||
| Activation and inactivation of hydrogenase function and the catalytic cycle: spectroelectrochemical studies. | Q36917655 | ||
| Investigating and exploiting the electrocatalytic properties of hydrogenases | Q36936294 | ||
| Dynamic electrochemical investigations of hydrogen oxidation and production by enzymes and implications for future technology | Q37352673 | ||
| Membrane-bound dehydrogenases from Gluconobacter sp.: interfacial electrochemistry and direct bioelectrocatalysis. | Q37426082 | ||
| Enzymes as modular catalysts for redox half-reactions in H2-powered chemical synthesis: from biology to technology | Q37632855 | ||
| Cellobiose dehydrogenase: a versatile catalyst for electrochemical applications. | Q37775934 | ||
| Review of glucose oxidases and glucose dehydrogenases: a bird's eye view of glucose sensing enzymes | Q37949478 | ||
| Biofuel cells: enhanced enzymatic bioelectrocatalysis. | Q38004574 | ||
| Principles of direct (mediator free) bioelectrocatalysis | Q38024636 | ||
| Features and applications of bilirubin oxidases. | Q38033460 | ||
| Bilirubin oxidases in bioelectrochemistry: features and recent findings. | Q38126271 | ||
| Hydrogenases | Q38198124 | ||
| Direct electron transfer type disposable sensor strip for glucose sensing employing an engineered FAD glucose dehydrogenase | Q38318938 | ||
| Isolation and purification of PQQ-dependent lactate dehydrogenase from Gluconobacter and use for direct electron transfer at carbon and gold electrodes | Q40052752 | ||
| On the direct electron transfer, sensing, and enzyme activity in the glucose oxidase/carbon nanotubes system | Q41911895 | ||
| Bioelectrocatalysis of ethanol via PQQ-dependent dehydrogenases utilizing carbon nanomaterial supports | Q42169167 | ||
| Cellobiose dehydrogenase aryl diazonium modified single walled carbon nanotubes: enhanced direct electron transfer through a positively charged surface | Q42717018 | ||
| Wiring of pyranose dehydrogenase with osmium polymers of different redox potentials. | Q43064279 | ||
| Catalytic protein film voltammetry from a respiratory nitrate reductase provides evidence for complex electrochemical modulation of enzyme activity. | Q43740000 | ||
| A miniature biofuel cell operating at 0.78 V. | Q44363213 | ||
| Long tethers binding redox centers to polymer backbones enhance electron transport in enzyme "Wiring" hydrogels | Q44404378 | ||
| Voltammetric studies of the catalytic mechanism of the respiratory nitrate reductase from Escherichia coli: how nitrate reduction and inhibition depend on the oxidation state of the active site | Q44733843 | ||
| In Rhodobacter sphaeroides respiratory nitrate reductase, the kinetics of substrate binding favors intramolecular electron transfer | Q44753426 | ||
| Biofuel cell based on direct bioelectrocatalysis | Q45290979 | ||
| Comparison of direct and mediated electron transfer for cellobiose dehydrogenase from Phanerochaete sordida | Q46102361 | ||
| A membrane-, mediator-, cofactor-less glucose/oxygen biofuel cell. | Q46322421 | ||
| Laccase electrode for direct electrocatalytic reduction of O2 to H2O with high-operational stability and resistance to chloride inhibition. | Q46515117 | ||
| Bilirubin oxidase bioelectrocatalytic cathodes: the impact of hydrogen peroxide. | Q46786153 | ||
| Biocatalysts for fuel cells: efficient hydrogenase orientation for H2 oxidation at electrodes modified with carbon nanotubes | Q47602220 | ||
| Bioelectrochemical Haber-Bosch Process: An Ammonia-Producing H2 /N2 Fuel Cell. | Q48280031 | ||
| Efficient electrocatalytic oxygen reduction by the 'blue' copper oxidase, laccase, directly attached to chemically modified carbons. | Q50454282 | ||
| A stable electrode for high-potential, electrocatalytic O(2) reduction based on rational attachment of a blue copper oxidase to a graphite surface. | Q50469579 | ||
| A novel wireless glucose sensor employing direct electron transfer principle based enzyme fuel cell. | Q51094152 | ||
| Novel FAD-dependent glucose dehydrogenase for a dioxygen-insensitive glucose biosensor. | Q51242099 | ||
| An Fe-S cluster in the conserved Cys-rich region in the catalytic subunit of FAD-dependent dehydrogenase complexes. | Q51462022 | ||
| Enzymatic biofuel cells for implantable and microscale devices. | Q51549469 | ||
| Fully Oriented Bilirubin Oxidase on Porphyrin-Functionalized Carbon Nanotube Electrodes for Electrocatalytic Oxygen Reduction. | Q51693063 | ||
| Employing FAD-dependent glucose dehydrogenase within a glucose/oxygen enzymatic fuel cell operating in human serum. | Q53258788 | ||
| Direct electrochemistry of nitrate reductase from the fungus Neurospora crassa. | Q53619843 | ||
| Hydrogen peroxide produced by glucose oxidase affects the performance of laccase cathodes in glucose/oxygen fuel cells: FAD-dependent glucose dehydrogenase as a replacement. | Q54767819 | ||
| Electron transfers in chemistry and biology | Q56002451 | ||
| P433 | issue | 131 | |
| P577 | publication date | 2017-06-01 | |
| P1433 | published in | Journal of the Royal Society Interface | Q2492390 |
| P1476 | title | Direct enzymatic bioelectrocatalysis: differentiating between myth and reality | |
| P478 | volume | 14 |
| Q90267786 | Building a Thermostable Metabolon for Facilitating Coenzyme Transport and In Vitro Hydrogen Production at Elevated Temperature |
| Q55021514 | Direct Electron Transfer of Dehydrogenases for Development of 3rd Generation Biosensors and Enzymatic Fuel Cells. |
| Q90105685 | Direct Electron Transfer of Enzymes Facilitated by Cytochromes |
| Q64228398 | Effect of Surface and Bulk Properties of Mesoporous Carbons on the Electrochemical Behavior of GOx-Nanocomposites |
| Q55266873 | Preparation, Modification, Characterization, and Biosensing Application of Nanoporous Gold Using Electrochemical Techniques. |
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