Entries |
Document | Title | Date |
20100178572 | ELECTRON TRANSFER MEDIATOR MODIFIED ENZYME ELECTRODE AND BIOFUEL CELL COMPRISING THE SAME - The present invention provides an electron transfer mediator modified enzyme electrode which can obtain a high current density and exhibit a stable electrode performance by covalently bonding an electron transfer mediator with a surface of a conductive base material constituting the electrode via a specific spacer, and a biofuel cell comprising the electron transfer mediator modified enzyme electrode. An electron transfer mediator modified enzyme electrode comprising a conductive base material connected to an external circuit, an oxidoreductase electron-transferable with the conductive base material and an electron transfer mediator which can mediate electron transfer between the conductive base material and the oxidoreductase, wherein the electron transfer mediator is covalently bonded to the surface of the conductive base material via a spacer containing at least a straight-chain structure, and a biofuel cell comprising the electron transfer mediator modified enzyme electrode. | 07-15-2010 |
20100203398 | PROCESS FOR GENERATING ELECTRIC ENERGY FROM BIOMASS - A process is disclosed for converting cellulosic biomass to electric energy. Cellulosic biomass is dissolved in a suitable solvent. The solution is used as a feed for a fuel cell. | 08-12-2010 |
20100239920 | Multi-Electrode Microbial Fuel Cells and Fuel Cell Systems and Bioreactors with Dynamically Configurable Fluidics - Microbial fuel cells including multiple electrodes, and systems of such fuel cells, are provided. An exemplary fuel cell includes a population of exoelectrogenic microbes and at least two anodes in an anode chamber, and a cathode in a cathode chamber. A path exists between the chambers for conducting hydrogen ions and each anode is connected to the cathode by a separate external circuit. Electrical output from the fuel cell is maximized by optimizing the microbe population, achieved by dynamically controlling the sub-populations at each of the multiple anodes. Systems comprising multiple such fuel cells connected by a dynamically reconfigurable fluidics system provide further optimization. | 09-23-2010 |
20100248042 | FUEL CELL, MANUFACTURING METHOD THEREOF, ELECTRONIC APPARATUS, ENZYME-IMMOBILIZED ELECTRODE, MANUFACTURING METHOD THEREOF, WATER-REPELLENT AGENT, AND ENZYME IMMOBILIZING MATERIAL - In the case in which a fuel cell has a structure in which a cathode ( | 09-30-2010 |
20100261072 | ENZYME ELECTRODE - The present invention provides an enzyme electrode composed of a carbon particle on which glucose dehydrogenase (GDH) with flavine adenine dinucleotide (FAD) as a coenzyme is supported and an electrode layer contacting the carbon particle, wherein the carbon particle and/or the electrode layer are/is composed of the carbon particles with a particle diameter of not more than 100 nm and a specific surface area of at least 200 m | 10-14-2010 |
20100266906 | BIOFUEL BATTERY AND PROCESS OF PREPARING THE SAME - The various embodiments herein provide a biofuel battery having a fuel, electrode and water and its manufacturing method. The biofuel battery comprises a bio fuel as a negative electrode, dissolved oxygen in water as a positive electrode and water as an electrolyte. The carbohydrate is used as bio mass for generating electron in the bio cell. The biofuel battery produces maximum amount of 1 volt electricity under the optimal conditions. | 10-21-2010 |
20100279178 | Microbial fuel cell - Microbial fuel cells may include anode(s), cathode(s) and a biofilm attached to at least the anode. The biofilm may include bacterial cells adapted to facilitate transfer of a plurality of electrons to the anode from a feedstock. In an example embodiment, a microbial fuel surface may include a large surface area to volume ratio in order to increase power (electron) generation and/or transfer. | 11-04-2010 |
20100279179 | System and Method for Directed Self-Assembly Technique for the Creation of Carbon Nanotube Sensors and Bio-Fuel Cells on Single Plane - Improved nanotube devices and systems/methods for fabrication thereof are provided. The present disclosure provides systems/methods for depositing controlled numbers of nanotubes with specific properties at predefined locations for the fabrication of nanotube devices. The nanotube devices may be utilized in a range of applications. A bio-fuel cell system that does not require a proton exchange membrane separator and does not need a mediator to transfer charge is provided. This exemplary bio-fuel cell uses enzyme functionalized SWNTs for the anode/cathode. The absence of a membrane in the bio-fuel cell configuration opens up the possibility of other configurations that would otherwise be unfeasible. This includes a bio-fuel cell where the anode/cathode are on the same substrate. Since the electrodes can share the same substrate, the configuration may be integrated with a circuit device on the same substrate. An IC and its power source may be fabricated on the same silicon wafer. | 11-04-2010 |
20100279180 | PROCESS FOR THE UTILIZATION OF RUMINANT ANIMAL METHANE EMISSIONS - A process for the utilization of the methane produced by enteric fermentation, specifically to a process that utilizes methane produced by ruminant animals through enteric fermentation as a source of carbon and/or energy for the directed production of methane-based goods or processes is provided. | 11-04-2010 |
20100304226 | MICROBIAL FUEL CELL - A microbial fuel cell having a pathway for passage of effluent from the anode to the cathode is provided, in addition to an ion exchange membrane between the chambers. Effluent may also pass from cathode to anode forming a continuous loop. Oxidation of effluent at the anode creates ammonium ions and produces electrons for an external circuit. The ammonium ions undergo nitrification at the cathode. Alternatively a nitrification reactor may be provided in the effluent pathway. Electrons are received by the cathode from the external circuit to reduce nitrate ions created by the nitrification process. | 12-02-2010 |
20100310945 | BIOLOGICAL FUEL CELL - A fuel cell includes an anode | 12-09-2010 |
20100330434 | Microbial Fuel Cell and Method - A microbial fuel cell includes a cell housing having first and second chambers. The first chamber is adapted for containing a fluid including a biomas. The second chamber is adapted for containing an oxygenated fluid. A cathode extends into the cell housing second chamber and an anode segment of an electrode assembly extends into the cell housing first chamber. The electrode assembly has multiple, substantially aligned, fibers. The outer surfaces of the fibers of the anode segment are adapted for receiving a biofilm. | 12-30-2010 |
20110014525 | Metallization of Bacterial Cellulose for Electrical and Electronic Device Manufacture - A method for the deposition of metals in bacterial cellulose and for the employment of the metallized bacterial cellulose in the construction of fuel cells and other electronic devices is disclosed. The method for impregnating bacterial cellulose with a metal comprises placing a bacterial cellulose matrix in a solution of a metal salt such that the metal salt is reduced to metallic form and the metal precipitates in or on the matrix. The method for the construction of a fuel cell comprises placing a hydrated bacterial cellulose support structure in a solution of a metal salt such that the metal precipitates in or on the support structure, inserting contact wires into two pieces of the metal impregnated support structure, placing the two pieces of metal impregnated support structure on opposite sides of a layer of hydrated bacterial cellulose, and dehydrating the three layer structure to create a fuel cell. | 01-20-2011 |
20110033757 | FLOATING-TYPE MICROBIAL FUEL CELL - Provided is a floating-type microbial fuel cell capable of effectively generating energy from organic contaminants of contaminated waters. The floating-type microbial fuel cell includes a cathode, an anode electrically connected to the cathode, and a floating unit connected to the cathode and/or the anode and floatable in a substrate solution, wherein the cathode is positioned at a region in the substrate solution having a dissolved oxygen concentration higher than that of a region at which the anode is positioned, and the anode is positioned at a region in the substrate solution having an amount of electrons generated by microorganisms larger than that of a region at which the cathode is positioned. | 02-10-2011 |
20110039164 | BIOANODE AND BIOCATHODE STACK ASSEMBLIES - A biofuel cell device for generating electrical current. The device includes a fuel manifold having a face, and at least one cavity in the face defining a fuel reservoir, an inlet in fluid communication with the reservoir for flow of fuel fluid into the manifold to fill the reservoir and an outlet in fluid communication with the reservoir for flow of fuel fluid out of the manifold. The device has an anode assembly including at least one bioanode positioned for contact with fuel fluid in the fuel reservoir, and a cathode assembly including at least one cathode positioned for flow of fuel fluid through the bioanode to the cathode. The device includes a controller operatively connected to the anode assembly and the cathode assembly for controlling the output of electrical current from the biofuel cell device. | 02-17-2011 |
20110039165 | FUEL CELL AND METHOD FOR MANUFACTURING THE SAME, ENZYME-IMMOBILIZED ELECTRODE AND METHOD FOR MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - There is provided a fuel cell whose current density and maintenance ratio can be improved when at least glucose dehydrogenase and diaphorase are immobilized on an anode using an immobilizing material composed of poly-L-lysine and glutaraldehyde. The fuel cell has a structure in which a cathode | 02-17-2011 |
20110053005 | Biological Fuel Cell and Methods - A fuel cell has an anode and a cathode with anode enzyme disposed on the anode and cathode enzyme is disposed on the cathode. The anode is configured and arranged to electrooxidize an anode reductant in the presence of the anode enzyme. Likewise, the cathode is configured and arranged to electroreduce a cathode oxidant in the presence of the cathode enzyme. In addition, anode redox hydrogel may be disposed on the anode to transduce a current between the anode and the anode enzyme and cathode redox hydrogel may be disposed on the cathode to transduce a current between the cathode and the cathode enzyme. | 03-03-2011 |
20110059373 | SYSTEM FOR PRODUCTION OF ADENOSINE TRIPHOSPHATE - The present invention relates to a system for production of ATP. This system is comprised of a support and one or more enzymes coupled to that support which are capable of collectively producing ATP from glucose or fructose metabolism. The present invention is additionally directed to a device, which includes the system, and to a method for carrying out a reaction involving the conversion of ATP to ADP using the system. | 03-10-2011 |
20110059374 | FUEL CELL AND ELECTRONIC APPARATUS - A fuel cell having excellent properties is provided in which, when an enzyme is immobilized in at least one of a positive electrode and a negative electrode, a sufficient buffering capability can be provided even in a high power output operation and the inherent capability of the enzyme can be sufficiently exerted. In a biofuel cell including a structure in which a positive electrode | 03-10-2011 |
20110065008 | ENZYME ELECTRODE AND FUEL CELL USING THE ENZYME ELECTRODE - Provided is an enzyme electrode in which oxidation-reduction reactions proceed with an enzyme acting as a catalyst, and the enzyme is modified to increase affinity and/or reaction rate with a reaction substrate or an electron transfer mediator by adding or inserting at least one codon encoding a particular amino acid residue to or into a base sequence encoding the enzyme, and is immobilized. Since the oxidation-reduction reactions on the electrode proceed highly efficiently, the enzyme electrode can cause to increase the obtained output of electric energy and thus can be suitably used in all types of fuel cells, biosensors, and electronic apparatuses. | 03-17-2011 |
20110104575 | GENERATING CLEAN SYNGAS FROM BIOMASS - Biomass is gasified to generate syngas. The syngas is subjected to thermal cracking. Heat from syngas exiting a thermal cracking stage is transferred to syngas entering the thermal cracking stage. Biomass gasification apparatus may include a thermal pathway connected to transfer heat from an outlet of a thermal cracking process to an inlet of the thermal cracking process. Energy efficiency is enhanced. Syngas may be used as fuel for engines or fuel cells, burned to yield heat, or processed into a fuel. | 05-05-2011 |
20110117451 | Biological Fuel Cell and Methods - A fuel cell has an anode and a cathode with anode enzyme disposed on the anode and cathode enzyme is disposed on the cathode. The anode is configured and arranged to electrooxidize an anode reductant in the presence of the anode enzyme. Likewise, the cathode is configured and arranged to electroreduce a cathode oxidant in the presence of the cathode enzyme. In addition, anode redox hydrogel may be disposed on the anode to transduce a current between the anode and the anode enzyme and cathode redox hydrogel may be disposed on the cathode to transduce a current between the cathode and the cathode enzyme. | 05-19-2011 |
20110117452 | Biological Fuel Cell and Methods - A fuel cell has an anode and a cathode with anode enzyme disposed on the anode and cathode enzyme is disposed on the cathode. The anode is configured and arranged to electrooxidize an anode reductant in the presence of the anode enzyme. Likewise, the cathode is configured and arranged to electroreduce a cathode oxidant in the presence of the cathode enzyme. In addition, anode redox hydrogel may be disposed on the anode to transduce a current between the anode and the anode enzyme and cathode redox hydrogel may be disposed on the cathode to transduce a current between the cathode and the cathode enzyme. | 05-19-2011 |
20110117453 | FUEL REFORMER AND POWER GENERATION APPARATUS USING THE SAME - The present invention provides a fuel reformer which enables power generation to be actually performed even in the case of using very-safe familiar things such as food and drink and food scraps as a fuel of a biofuel cell. The fuel reformer is used for a fuel cell which generates power as an oxidation reduction reaction progresses using enzyme as a catalyst, and has: a primary fuel introduction unit for introducing a primary fuel; a fuel reforming unit communicating with the primary fuel introduction unit and reforming the primary fuel to a secondary fuel from which electrons can be emitted by an oxidation reduction reaction using enzyme as a catalyst; and a secondary fuel supplying unit communicating with the fuel reforming unit and supplying the secondary fuel to the fuel cell. | 05-19-2011 |
20110123876 | Production of a Biofilm on an Electrode for a Biocell, Electrode and Biocell Obtained - A method for the production of a biofilm at the surface of an electrode in a liquid medium containing bacteria and a substrate for growth of the bacteria, in which a system of electrodes constituted of two electrodes, which are connected to a direct electric current source, is used, these two electrodes are placed in the medium and a predetermined and constant potential difference is applied between the electrodes, by virtue of which biofilms form at the surface of the electrodes. Resulting electrodes and biocells. | 05-26-2011 |
20110136021 | CATHODE DESIGN - A cathode for a fuel cell comprising a catalyst layer; a backing layer mounted to an aperture in a fuel chamber of said fuel cell; 1) wherein said catalyst layer is mounted to the backing layer on a face opposed to the aperture, so as to be in fluid communication with atmospheric oxygen in the case of microbial fuel cell; and 2) wherein said catalyst layer is mounted to the backing layer on a face opposed to the aperture, so as to be in fluid communication with water in the case of microbial electrolysis cell. | 06-09-2011 |
20110136022 | FUEL CELL, METHOD FOR PRODUCING FUEL CELL, ELECTRONIC APPARATUS, ENZYME-IMMOBILIZED ELECTRODE, BIOSENSOR, ENERGY-CONVERSION ELEMENT, CELLS, ORGANELLES, AND BACTERIA - There are provided a fuel cell and a production method therefor in which one or more types of enzymes or further coenzymes are enclosed in a micro space so that electrons can be efficiently extracted from a fuel such as glucose or the like by an enzyme reaction using the micro space as a reaction field, thereby producing electric energy, and in which the enzyme or further the coenzyme can be easily immobilized on an electrode. | 06-09-2011 |
20110143223 | FUEL CELL - A fuel cell is provided. The fuel cell includes at least one of a plant essential oil and a plant essential oil ingredient in an effective amount so as to function as a biological repellent. | 06-16-2011 |
20110143224 | BICARBONATE AND CARBONATE AS HYDROXIDE CARRIERS IN A BIOLOGICAL FUEL CELL - The present invention relates generally to a process that helps alleviate the pH gradient between anode and cathode compartments in any biological fuel cell or electrolytic cell configuration in which a pH gradient between anode and cathode is limiting the voltage efficiency. By providing acid to the cathode compartment in the form of CO | 06-16-2011 |
20110143225 | FUEL CELL AND METHOD FOR MANUFACTURING THE SAME, ELECTRONIC APPARATUS, ENZYME-IMMOBILIZED ELECTRODE AND METHOD FOR MANUFACTURING THE SAME, WATER-REPELLENT AGENT, AND ENZYME-IMMOBILIZING MATERIAL - A fuel cell is provided having a structure in which a cathode and an anode face each other with an electrolyte layer therebetween. The cathode includes an electrode on which an oxygen reductase and the like are immobilized, and the electrode has pores therein, water repellency is imparted to at least part of the surface of the electrode. Water repellency is imparted by forming a water-repellent agent on the surface of the electrode. The water-repellent agent includes a water-repellent material such as carbon powder and an organic solvent such as methyl isobutyl ketone that causes phase separation with water. When the electrode has pores therein, there are provided a fuel cell that stably provides a high current value and a method for manufacturing the fuel cell. | 06-16-2011 |
20110171541 | FUEL CELL, METHOD FOR OPERATING THE SAME, AND ELECTRONIC DEVICE - Provided is a fuel cell having a structure in which a cathode and an anode face each other with a proton conductor therebetween. In this fuel cell, an oxygen reductase or the like is immobilized on at least the cathode, and the cathode is composed of a material having pores therein such as porous carbon. In this fuel cell, the volume of water contained in the cathode is controlled to be 70% or less of the volume of the pores of the cathode, whereby a high current value can be stably obtained through optimization of the amount of moisture contained in the cathode when an enzyme is immobilized on at least the cathode. Also provided is a method for operating the fuel cell. | 07-14-2011 |
20110171542 | FUEL CELL, ELECTRONIC DEVICE, MOVABLE BODY, POWER GENERATION SYSTEM, AND COGENERATION SYSTEM - A fuel cell which can directly extract electric power from a polysaccharide, such as starch, is provided. A fuel electrode is formed by immobilizing with an immobilizer, on an electrode comprised of, e.g., carbon, an enzyme responsible for decomposing a polysaccharide into monosaccharides, an enzyme responsible for decomposing the monosaccharide formed, a coenzyme (e.g., NAD | 07-14-2011 |
20110171543 | POWER GENERATION - A method and apparatus are disclosed for generating electrical power during negative pressure therapy. The apparatus includes a fuel cell, comprising an anode element and a cathode element, arranged to collect biological fluid from a wound site to which a negative pressure is applied and electro-oxidize a component of the biological fluid at the anode element and/or electro-reduce a component of the biological fluid at the cathode element. | 07-14-2011 |
20110200889 | FUEL CELL, ELECTRONIC DEVICE, AND BUFFER SOLUTION FOR FUEL CELL - A fuel cell with which in the case where an enzyme is immobilized to at least one of a cathode and an anode, sufficient buffer ability is able to be obtained even at the time of high output operation, ability inherent in the enzyme is able to be sufficiently demonstrated, and which has superior performance is provided. In a bio-fuel cell which has a structure in which a cathode and an anode are opposed to each other with an electrolyte layer containing a buffer substance in between, and in which an enzyme is immobilized to at least one of the cathode and the anode, a compound containing an imidazole ring is contained in the electrolyte layer as a buffer substance, and one or more acids selected from the group consisting of acetic acid, phosphoric acid, and sulfuric acid are further added. | 08-18-2011 |
20110229775 | Device for Efficient, Cost-Effective Conversion of Aquatic Biomass to Fuels and Electricity - A continuous system for growing algae, processing it and converting it into electricity, fuel and animal feed. The system utilizes an algae bioreactor which feeds harvested algae to a biomass extraction system which in turn directs a portion of the harvested algae to a microbial generator. The microbial generator converts the algae into electricity, water and nutrients. The biomass extraction system includes a dewatering device and a biomass dryer. The microbial generator in a preferred embodiment is a microbial fuel cell. Dry algae product used for animal feed, fuel, and the like is obtained from the output of the biomass dryer. | 09-22-2011 |
20110229776 | METHOD FOR IMMOBILIZING ENZYME ON ELECTRODE FOR FUEL CELL, FUEL CELL, METHOD FOR MANUFACTURING FUEL CELL, ELECTRODE FOR FUEL CELL, AND METHOD FOR MANUFACTURING ELECTRODE FOR FUEL CELL - Provided are an enzyme immobilizing method, a fuel cell and an electrode for the fuel cell which employ the enzyme immobilizing method, and a method for manufacturing the fuel cell and the electrode. The enzyme immobilizing method prevents reduction in enzyme activity when the enzyme is immobilized on the electrode, so as to make it possible to obtain a high catalyst current value. In the method for immobilizing an enzyme on the electrode used in the fuel cell, an enzyme variant with at least one amino acid residue being deleted, substituted, added, or inserted in a wild-type amino acid sequences is used as the enzyme, and the enzyme variant increases in activity through heat treatment. The immobilization is performed within a temperature range which makes it possible to increase the activity of the enzyme variant. | 09-22-2011 |
20110236769 | THREE DIMENSIONAL ELECTRODES USEFUL FOR MICROBIAL FUEL CELLS - An electrode for use in a microbial fuel cell comprising a porous substrate and nanostructure coating, for example, a carbon nanotube coating, is provided. The electrode can be configured as either a cathode or an anode, or both. Also provided is a microbial fuel cell comprising an anode compartment comprising an anode and a cathode compartment comprising a cathode and a metallic catalyst, wherein at least one of the anode and cathode comprises the porous substrate conformally coated with the nanostructure coating, and the cathode and anode are electrically connected. Methods for generating an electrical current with marine sediment or wastewater with the microbial fuel cell are also described. | 09-29-2011 |
20110236770 | FUEL CELL AND ENZYME ELECTRODE - Provided is a fuel cell that is high in performance capabilities of initial power generation and in volume power density, and produces a stable power. Between fixing plates, first and second cell portions are provided. The first cell portion includes an anode, a cathode, and a proton conductor, and the second cell portion includes an anode, a cathode, and a proton conductor. To a space formed by gas-liquid separation and permeable films, cathode spacers, and an anode spacer, a fuel solution is filled. The gas-liquid separation and permeable films are disposed between the fixing plate and the cathode, and between the fixing plate and the cathode. The cathode spacers are provided around the cathodes, respectively, and the anode spacer is provided between the anodes. | 09-29-2011 |
20110236771 | MUTANT GLUCONATE DEHYDROGENASE - The present disclosure provides a mutant gluconate dehydrogenase whose enzyme activity and/or heat resistance is a predetermined level or higher. The mutant gluconate dehydrogenase is made by an amino acid sequence obtained by deleting, substituting, adding or inserting one or plural amino acids in an amino acid sequence represented by sequence number 1. The mutant gluconate dehydrogenase displays enzyme activity which is equal to or higher than 120% of a wild-type gluconate dehydrogenase made by an amino acid sequence represented by sequence number 1, and/or displays residual enzyme activity after heat treatment under predetermined conditions, which is equal to or higher than 20% of the enzyme activity before the heat treatment. | 09-29-2011 |
20110250510 | GLUCOSE BIOFUEL CELL - A biofuel cell intended to be immersed into a liquid medium containing a sugar and oxygen, wherein the anode includes an enzyme capable of catalyzing the oxidation of the sugar and a redox mediator of low redox potential capable of exchanging electrons with the anode enzyme and the cathode includes an enzyme capable of catalyzing the reduction of oxygen and a redox mediator of high redox potential capable of exchanging electrons with the cathode enzyme. Each of the anode and cathode electrodes is formed of a solid agglomerate of a conductive material mixed with the appropriate enzyme and redox mediator and is solid with an electrode wire. | 10-13-2011 |
20110250511 | BIOFUEL CELL - Disclosed herein is a biofuel cell including a polymer gel reversibly swelling and contracting in response to variations in a property of a fuel solution making contact therewith, the polymer gel being on a surface of an electrode and/or in the inside of the electrode. | 10-13-2011 |
20110269029 | DIRECT ALCOHOL ANION FUEL CELL WITH BIOCATHODE - A biofuel cell device for generating electrical current, comprising a fuel manifold, an anode assembly, a cathode assembly, a housing, and a controller is described. The anode assembly comprises at least one catalyst positioned for contact with fuel fluid in said fuel reservoir. The cathode assembly comprises at least one biocathode positioned for flow of an oxidant to the biocathode enzyme. The housing houses the manifold, anode assembly and cathode assembly. The controller controls the output of electrical current from the biofuel cell device. | 11-03-2011 |
20110274988 | BATTERIES, FUEL CELLS, AND OTHER ELECTROCHEMICAL DEVICES - An electrochemical device having an anode electrode, a cathode electrode, and an electrolyte. At least one of the anode electrode and the cathode electrode is provided with a substantially uniform superficial relief pattern formed by a plurality of substantially uniform projections and has an electrical conductivity gradient between peaks of the projections and valleys between the projections | 11-10-2011 |
20110281182 | FUEL ANALYZING METHOD AND FUEL ANALYZING DEVICE FOR FUEL CELL, AND FUEL CELL - Disclosed herein is a fuel analyzing method for a fuel cell, including the steps of: measuring a physical property and/or an electric characteristic of a fuel to be used in a biofuel cell having an electrode with an oxidoreductase present at a surface thereof; and determining the quantity of an effective component which contributes to power generation in the fuel, from the physical property and/or the electric characteristic. | 11-17-2011 |
20110281183 | FUEL CELL - A fuel cell includes: one or a plurality of cell sections having an electrode with an oxidoreductase present at a surface thereof; and a container in which the cell section or sections are contained; wherein the container is provided with a fuel solution pouring port through which to pour a fuel solution into the cell section or sections, and the fuel solution pouring port is oriented in a fixed direction at least at the time of pouring the fuel solution. | 11-17-2011 |
20110287328 | FLEXIBLE FUEL CELL - Disclosed herein is a flexible fuel cell including, one or a plurality of cell sections, and a sealing sheet covering the cell section or sections, wherein the cell section has, at least, a pair of electrode sheets which form an anode and a cathode and at least one of which is accompanied by an oxidoreductase present at a surface thereof, a separator which is disposed between the electrode sheets and which has a proton-permeable membrane, a pair of current collectors which are electrically conductively connected respectively to the electrode sheets with a conductive adhesive, and a fuel reservoir section which is provided at such a position as to make contact with the anode at least and in which a fuel solution containing a fuel component is reserved. | 11-24-2011 |
20110300455 | Micro-Sized Microbial Fuel Cell - A microbial fuel cell includes an anode portion having an anode and a cathode portion having a cathode. The anode is configured to support an electrically conductive biofilm matrix. A cation exchange membrane is positioned between the anode and the cathode. The anode portion and the cation exchange membrane define an anode chamber having a volume of between about 1 μL and about 100 μL and configured to receive an anolyte. The cathode portion and the cation exchange membrane define a cathode chamber having a volume of between about 1 μL and about 100 μL and configured to receive a catholyte. The microbial fuel cell is configured to achieve a Coulombic efficiency of at least 30% and/or a power density of at least of 4.7 μW/cm | 12-08-2011 |
20110311887 | MICROBIAL DESALINATION CELLS - A microbial desalination cell includes an anode, a cathode, a saline solution chamber and a cathode rinsing assembly. The anode is at least partially positioned within an anode chamber for containing an aqueous reaction mixture including one or more organic compounds and one or more bacteria for oxidizing the organic compounds. The cathode is directly exposed to air. The saline solution chamber is positioned between the anode and the cathode, and is separated from the anode by an anion exchange material and from the cathode by a cation exchange material. The cathode rinsing assembly is for rinsing the cathode with a catholyte. | 12-22-2011 |
20120045699 | Fuel Cell Power and Water Generation - Methods and systems provide for the creation of power, water, and heat utilizing a fuel cell. According to embodiments described herein, fuel is provided to a fuel cell for the creation of power and a fuel byproduct. The fuel byproduct is routed to a byproduct separation phase of a power and water generation system, where water is separated from the fuel byproduct. The remaining mixture is reacted in a burner phase of the system to create additional heat that may be converted to mechanical energy and/or utilized with other processes within the system or outside of the system. According to other aspects, the separated water may be utilized within a biofuel production subsystem for the creation of biofuel to be used by the fuel cell. | 02-23-2012 |
20120064416 | THREE ELECTRODE TYPE OF MICROBIAL FUEL CELL AND A METHOD FOR OPERATING THE SAME - Provided are a three electrode type microbial fuel cell and a method of operating the same. The fuel cell includes a sediment electrode acting as an anode and placed in sediment on the bottom of a contaminated water zone, an intermediate electrode acting as an anode or a cathode and placed in water, and an floating electrode acting as a cathode and placed adjacent to a water surface. In the three electrode type microbial fuel cell, the intermediate electrode may be used as an anode or a cathode according to the concentration of organic contaminants in water of the contaminated water zone, so that the fuel cell can continue to generate electricity in any case where the organic contaminants are present in or removed from the water. | 03-15-2012 |
20120115045 | MICROBIAL FUEL CELL - Disclosed herein are methods and devices for generating electricity from an effluent source. In the presence of a biological catalyst, a high strength effluent allows for efficient production of electricity. Further, disclosed herein are methods for the treatment of wastewater while generating electricity. | 05-10-2012 |
20120164544 | AEROBIC MICROBIAL FUEL CELL - An aerobic microbial fuel cell anode electrode, a fuel cell using the anode, and methods of use. An anode electrode having a conductive exterior surface and having sufficient porosity to allow a fuel-bearing liquid flowing in a cavity within the anode to escape and to supply fuel to a biologically active microbe film grown on the exterior of the anode is situated in the fuel cell. When operated in an aerobic environment, such as water, the anode and a cathode can supply electrical power to a load without the need for a semi-permeable membrane between the anode and the cathode. Several embodiments in which the anode electrode is machined from a graphite block or cylinder are described. Conditions for growing the biologically active film and for operating the fuel cell are described. | 06-28-2012 |
20120178000 | Electrochemical devices based on multiple junction ionic conductive membranes - A fuel cell ( | 07-12-2012 |
20120219869 | Silicon Hydride Nanocrystals as Catalysts for Proton Production in Water-Organic Liquid Mixtures - Embodiments of the present methods may be used to produce energy in the form of an electrical current from water without the use of fossil fuel. Silicon hydride is very easy to make. This procedure in conjunction with an enzyme to produce hydrogen gas for fuel cells and other small devices. In fuel cells the production of protons may be bypassed, and an oxidant such as permanganate or oxygen from air may be used to drive the fuel cells. In such an embodiment, an intermediate reaction may not be needed to produce protons. In one embodiment, membrane-less laminar flow fuel cells with an external grid for oxygen supply from the air may be used. | 08-30-2012 |
20120264023 | BIO-FUEL CELL FUEL SUPPLY BODY AND BIO-FUEL CELL SYSTEM - A fuel supply body is partially or wholly formed from a material having a biopolymer as a main component and a biocatalyst that metabolically decomposes the biopolymer is contained therein or immobilized thereto. A bio-fuel cell system is constituted of the fuel supply body and a bio-fuel cell including electrodes with an oxidation-reduction enzyme present on a surface thereof to supply fuel and/or the biocatalyst from the fuel supply body to the bio-fuel cell and also to use the fuel supply body itself as the fuel. | 10-18-2012 |
20120264024 | Methods and apparatuses for electrochemical cell system with movable medium and non-conducting substrate - The present invention provides methods and apparatuses for half-cells to oxidize protons in electrochemical half-cells with no medium and to oxidize acid-hosted protons in half-cell systems with a medium in a non-conducting substrate having openings and an apparatus to transfer the media among openings. Details are described of technology to capture protons into acid media so as to provide hosted protons. Detectors are described that can provide seismic and weather-related data. A method of producing power from in vivo vital fluids is given. | 10-18-2012 |
20120315552 | Electrically Conductive Ink and Uses Thereof - The present disclosure provides an electrode including an electrically conductive ink deposited thereon comprising: a nano-scale conducting material; a binding agent; and an enzyme; wherein said ink is essentially solvent free. In one embodiment, the ink includes at least one of a mediator, a cross-linking agent and a substrate as well. In one further embodiment, the electrode provided herein is used in a battery, fuel cell or sensor. | 12-13-2012 |
20120321966 | Electrolyte Enhanced Microbial Fuel Cell - The present invention relates to a process comprising A) providing a microbial fuel cell comprising i) an anode containing one or more electrically conductive materials which is arranged to provide flow paths for electrons through the electrically conductive material, ii) microbes in electrical contact with the anode iii) a cathode containing one or more electrically conductive materials iv) a catholyte, v) a conduit for electrons in contact with both the anode and the cathode which is a part of a circuit; B) introducing a mixture of one or more electrolytes or one or more electrolytes dissolved in a first fluid with a second fluid containing biodegradable material; C) contacting the mixture of B) with the anode in the presence of microbes; D) contacting the cathode with a catholyte; E) removing from the microbial fuel cell the fluid mixture. | 12-20-2012 |
20130011748 | POWER SUPPLY DEVICE AND ELECTRONIC APPARATUS - A power supply device in which an enzyme is immobilized as a catalyst on negative electrodes and/or positive electrodes, includes electromotive portions in which at least two of the negative electrodes and the positive electrodes are connected in series, and a fuel supply portion which communicates with the negative electrodes and which simultaneously supply a fuel to the negative electrodes, and in the power supply device, the fuel supply portion includes fuel-supply adjusting portions which adjust fuel supply to the negative electrodes. | 01-10-2013 |
20130011749 | FUEL CELL - A separator formed of a material, which does not transmit liquid, is provided between a cell unit including an electrode on a surface of which an oxidoreductase is present and a fuel storage unit provided adjacent to the cell unit. It is configured such that power generation is started by supply of fuel solution stored in the fuel storage unit to the cell unit by removal of at least a part of the separator. | 01-10-2013 |
20130017457 | Multilayered StructureAANM Vaari; AnuAACI VttAACO FIAAGP Vaari; Anu Vtt FIAANM Ojala; Ville-MikkoAACI VttAACO FIAAGP Ojala; Ville-Mikko Vtt FIAANM Valkiainen; MattiAACI EspooAACO FIAAGP Valkiainen; Matti Espoo FIAANM Smolander; MariaAACI EspooAACO FIAAGP Smolander; Maria Espoo FIAANM Boer; HarryAACI SiuntioAACO FIAAGP Boer; Harry Siuntio FI - A multilayered structure suitable as an electrode in a power source and a method of producing the same. The structure comprises a conductive laminar layer; and an enzyme layer containing an essentially dry enzyme capable of oxidizing or dehydrogenating carbohydrate material under suitable conditions. Because the enzymatic anode layer and the fuel containing layer are not interacting during the production and since they are kept latent during storage time, the power source will remain stable for extended periods of time, thus increasing the utility of the power source. | 01-17-2013 |
20130052546 | BIO-FUEL CELL - A bio-fuel cell includes at least one bio-fuel cell element. The bio-fuel cell element includes an anode, a cathode, an anode container filled with the bio-fuel, a proton exchange membrane sandwiched between the anode and the cathode, and a guide plate. The cathode includes a catalyst layer. The catalyst layer includes a number of tube carriers having electron conductibility, a number of catalyst particles uniformly adsorbed on inner wall of each of the tube carriers, and proton conductor filled in each of the tube carriers. The tube carriers cooperatively define a number of reaction gas passages. One end of each of the tube carriers connects with the proton exchange membrane. The guide plate is disposed on a surface of the cathode away from the proton exchange membrane. | 02-28-2013 |
20130059212 | ENZYME ELECTRODE, AND BIO FUEL CELL EQUIPPED THEREWITH - An enzyme electrode having an electroconductive base member, an oxidoreductase and an electron mediator has at least a portion (a) in which the oxidoreductase is immobilized on the electroconductive base member, and a portion (b) in which the electron mediator is immobilized on the electroconductive base member but the oxidoreductase is not immobilized on the electroconductive base member. A bio fuel cell having the enzyme electrode as at least one of an anode and a cathode allows optimization of a reaction condition of each one of a plurality of reaction steps, including an “enzymatic reaction”, an “electron transfer reaction”, etc. Thus, the bio fuel cell provides high output. | 03-07-2013 |
20130065139 | FUEL CELL - A fuel cell that can have a higher battery capacity without degradation of cathode characteristics is provided. | 03-14-2013 |
20130078534 | Biological Fuel Cell and Methods - A fuel cell has an anode and a cathode with anode enzyme disposed on the anode and cathode enzyme is disposed on the cathode. The anode is configured and arranged to electrooxidize an anode reductant in the presence of the anode enzyme. Likewise, the cathode is configured and arranged to electroreduce a cathode oxidant in the presence of the cathode enzyme. In addition, anode redox hydrogel may be disposed on the anode to transduce a current between the anode and the anode enzyme and cathode redox hydrogel may be disposed on the cathode to transduce a current between the cathode and the cathode enzyme. | 03-28-2013 |
20130101905 | ENZYMATIC MODIFICATIONS OF A CELLULAR MONOLITHIC CARBON AND USES THEREOF - A porous electrochemical electrode is made up of a solid cellular material provided in the form of a semi-graphitised carbon monolith comprising a hierarchised porous network free of mesopores and including macropores with a mean dimension d | 04-25-2013 |
20130101906 | Gas Diffusion Electrode, Method of Producing Same, Membrane Electrode Assembly Comprising Same and Method of Producing Membrane Electrode Assembly Comprising Same - A process for producing a gas diffusion electrode comprising the steps of: casting a porous electrically conductive web with a suspension of particles of an electrically conductive material in a solution of a first binder to provide a first layer which is an electrochemically active layer (AL); casting a suspension of particles of a hydrophobic material in a solution of a second binder on said first layer to provide a second layer; and subjecting said first and second layer to phase inversion thereby realising porosity in both said first layer and said second layer, wherein said subjection of said second layer to phase inversion thereby realises a water repellent layer; a gas diffusion electrode obtained therewith; the use of a gas diffusion electrode in an membrane electrode assembly; a membrane electrode assembly comprising the gas diffusion electrode; and a method of producing a membrane electrode assembly is realised, said membrane electrode assembly comprising a membrane sandwiched between two electrodes at least one of which is a gas diffusion electrode, wherein said method comprises the step of casting said membrane electrode assembly in a single pass. | 04-25-2013 |
20130130130 | FUEL LEAKAGE PREVENTING STRUCTURE AND BIOFUEL CELL - The valve control unit of a fuel leakage preventing structure of the present invention includes first and second electrodes. The first electrode is attached to a first member that is movable. When a pressing force is applied to the first member to move, the first and second electrodes are brought into contact with each other, to cause conduction. The first and second electrodes are connected to a control device, and the control device opens a control valve when the first and second electrodes are put into a conducting state. As the control valve is opened and closed by a pressing force in this manner, a fuel solution can be easily supplied. | 05-23-2013 |
20130137000 | MODULAR ENERGY RECOVERING WATER TREATMENT DEVICES - A modular device that is optimized for preliminary water treatment and energy generation and methods for operating the same are described. | 05-30-2013 |
20130143130 | ENZYME/CARBON STRUCTURE COMPLEX, METHOD FOR PREPARING SAME, AND USE THEREOF - Disclosed is a composite of enzyme and carbon structure. In the composite of enzyme and carbon structure, a significantly large amount of an enzymeis immobilized on the surface of carbon structures without the formation of chemical bonds (particularly, covalent bonds) between the enzyme molecules and the carbon structures. Since the surface of the carbon structures does not need to be modified to form chemical bonds, the electrical conductivity of the composite of enzyme and carbon structure is not reduced and the stability of the composite is maintained high even after the passage of a long time in various environments. Therefore, the use of the composite of enzyme and carbon structure enables the fabrication of various devices, such as biosensors and biofuel cells, with markedly improved performance as compared to the use of conventional enzyme/carbon structure composites. | 06-06-2013 |
20130143131 | BIOFUEL CELL - A biofuel cell is formed by disposing an anode (negative electrode) to be a fuel electrode, an anode current collector, a separator, a cathode current collector, a cathode (positive electrode) to be an air electrode and a gas-liquid separation membrane in this order between a fuel tank and a positive electrode cover. During the formation, an electrode formed of a carbon fiber fabric having a network structure constituted by a monofilament strand of a carbon fiber and has a redox enzyme on the surface is used in at least the anode. | 06-06-2013 |
20130244123 | BIOCATHODE-PHOTOANODE DEVICE AND METHOD OF MANUFACTURE AND USE - A system for harvesting electric energy from illumination by photons by photo- and bioelectrocatalysis includes an electrode coated with conducting polymer matrix containing the oxidoreductase, laccase, and a redox mediator, 2,2′-azino-bis(3-ethylbenzothiaxoline-6-sulfonic acid (ABTS). The photo-anode is based on nanocrystalline TlO2 (Degussa, P25) adhered to a fluorine tin oxide (FTO) electrode. The device operation is based on a continuous photocatalytic oxidation of water to oxygen at a TiO2-photoanode and bioelectrocatalytic reduction of oxygen to water at a biocathode under illumination with light. | 09-19-2013 |
20130266876 | SPIRALLY WOUND MICROBIAL FUEL CELL - A bacterial fuel cell including at least one anode and at least two cathodes in liquid communication with a liquid to be treated, the at least one anode being separated from the at least two cathodes by at least first and second electrically insulating spacers and the at least one anode and the at least two cathodes being electrically connected across an external load and the at least one anode and the at least two cathodes being wound together generally in a spiral configuration together with at least a third electrically insulating spacer. | 10-10-2013 |
20130273440 | HOUSING, IN PARTICULAR FOR A BIOFUEL CELL - A housing includes a body with a first silicon element and a second porous silicon element, at least one first cavity provided in the porous silicon element, a first electrically conducting contact area electrically coupled to at least a portion of at least one internal wall of the at least one first cavity, and a second electrically conducting contact area electrically coupled to a different portion of the at least one internal wall of the second porous silicon element of the at least one first cavity, wherein the two contact areas are electrically isolated from each other. | 10-17-2013 |
20130288140 | Biological Fuel Cell and Methods - A fuel cell has an anode and a cathode with anode enzyme disposed on the anode and cathode enzyme is disposed on the cathode. The anode is configured and arranged to electrooxidize an anode reductant in the presence of the anode enzyme. Likewise, the cathode is configured and arranged to electroreduce a cathode oxidant in the presence of the cathode enzyme. In addition, anode redox hydrogel may be disposed on the anode to transduce a current between the anode and the anode enzyme and cathode redox hydrogel may be disposed on the cathode to transduce a current between the cathode and the cathode enzyme. | 10-31-2013 |
20130302703 | MICROBIAL FUEL CELL - Disclosed is a high surface area electrode for use in a microbial fuel cell. In one embodiment the high surface area electrode has an electrode backing and villiated extensions attached to the backing. In one embodiment the villiated extensions and/or electrode backing are made of an electro conductive material such as, for example, graphite or graphite fibers. In one embodiment the electrode is an anode and the electrode backing is in the form of a mesh or woven structure. The electrodes offer superior removal of chemical oxygen demand (COD) and are thus useful in the remediation of wastewaters. The invention also provides microbial fuel cells that utilize the electrodes of the invention. In one embodiment the microbial fuel cells utilize an oxygen barrier and do not utilize a cation or anion or proton exchange membrane. | 11-14-2013 |
20130344400 | BIOCHEMICAL SYSTEMS FOR SULFUR AND CARBON SEQUESTRATION - A fuel cell includes an anode including a current collector and microorganisms; a cathode; and a source of a sulfur-containing compound; wherein the fuel cell is poised for the microorganisms to selectively oxidize the sulfur-containing compound to elemental sulfur. Purification of a sulfur-contaminated fuel may be completed using such fuel cells. A method of carbon sequestration includes providing a fuel cell that includes a cathode including a conductor and oxygen; and an anode including a current collector and microorganisms; and introducing carbonic acid to the cathode to react with the oxygen to produce water and a carbonate or bicarbonate salt. | 12-26-2013 |
20140004427 | PROCESSING BIOMASS FOR USE IN FUEL CELLS | 01-02-2014 |
20140038065 | PHOTOSYNTHETIC ELECTROCHEMICAL CELLS - The present disclosure provides photosynthetic electrochemical cells including photosynthetic compounds and methods of generating an electrical current using the photosynthetic electrochemical cells. | 02-06-2014 |
20140038066 | Paper-Based Fuel Cell - The present disclosure provides biological fuel cells comprising a paper-based fuel delivery layer which delivery fuel to the biological anode and cathode via capillary action and/or evaporation. In some embodiments the paper-based fuel delivery layer incorporates an outwardly extending fan-shaped region which enables a constant volumetric flow rate through the cell. | 02-06-2014 |
20140065494 | FUEL CELL, METHOD FOR PRODUCING FUEL CELL, ELECTRONIC APPARATUS, NICOTINAMIDE ADENINE DINUCLEOTIDE-IMMOBILIZED ELECTRODE, NICOTINAMIDE ADENINE DINUCLEOTIDE-IMMOBILIZED CARRIER, ENZYME REACTION UTILIZATION DEVICE, PROTEIN-IMMOBILIZED ELECTRODE AND PROTEIN-IMMOBILIZED CARRIER - Provided is a fuel cell capable of preventing elution of nicotinamide adenine dinucleotide and/or a derivative thereof immobilized on an electrode, and capable of preventing performance degradation due to elution, and a method for manufacturing the fuel cell. | 03-06-2014 |
20140080011 | MANUFACTURING METHOD FOR CATALYST ELECTRODE, CATALYST ELECTRODE MANUFACTURED BY MEANS OF METHOD, AND BATTERY COMPRISING SAME - The catalytic electrode of the present invention does not cause mass transfer resistance, unlike conventional catalytic electrodes coated with Nafion or the like, and thus can achieve significantly high electron transfer efficiency. Accordingly, the catalytic electrode can have high power density, and thus has excellent physical properties. | 03-20-2014 |
20140134503 | DIATOMACEOUS ENERGY STORAGE DEVICES - A printed energy storage device includes a first electrode, a second electrode, and a separator between the first and the second electrode. At least one of the first electrode, the second electrode, and the separator includes frustules, for example of diatoms. The frustules may have a uniform or substantially uniform property or attribute such as shape, dimension, and/or porosity. A property or attribute of the frustules can also be modified by applying or forming a surface modifying structure and/or material to a surface of the frustules. The frustules may include multiple materials. A membrane for an energy storage device includes frustules. An ink for a printed film includes frustules. | 05-15-2014 |
20140199603 | Biological Fuel Cell and Methods - A fuel cell has an anode and a cathode with anode enzyme disposed on the anode and cathode enzyme is disposed on the cathode. The anode is configured and arranged to electrooxidize an anode reductant in the presence of the anode enzyme. Likewise, the cathode is configured and arranged to electroreduce a cathode oxidant in the presence of the cathode enzyme. In addition, anode redox hydrogel may be disposed on the anode to transduce a current between the anode and the anode enzyme and cathode redox hydrogel may be disposed on the cathode to transduce a current between the cathode and the cathode enzyme. | 07-17-2014 |
20140272608 | MULTICOPPER OXIDASE MUTANT, A GENE CODING THEREOF, AND A BIOFUEL-CELL USING THE SAME - A multicopper oxidase mutant having improved resistance to imidazole compounds is provided. A multicopper oxidase mutant, which comprises an amino acid sequence derived from the amino acid sequence shown in SEQ ID NO: 2 by substitution of either or both an amino acid residue corresponding to methionine at position 157 and an amino acid residue corresponding to proline at position 414 with a different amino acid and has activity of catalyzing a reaction generating water molecules via four-electron reduction of oxygen molecules using ABTS (2,2′-azinobis(3-ethylbenzoline-6-sulfonate)) as a substrate is provided. | 09-18-2014 |
20140287328 | METHOD FOR PRODUCING FUEL BATTERY, AND FUEL BATTERY AND ELECTRONIC DEVICE - Provided is a method for producing a fuel battery in which an oxidoreductase has been fixed as a catalyst on at least one electrode of a negative electrode or a positive electrode, including conducting at least a step of preparing an electrode pattern, in which an electrode material containing at least electroconductive particles is printed on the surface of a bendable non-electroconductive sheet, and a step of preparing a negative electrode and a positive electrode, in which a negative electrode and a positive electrode are made by printing a predetermined oxidoreductase on the electrode pattern prepared in the step of preparing an electrode pattern. | 09-25-2014 |
20140322617 | PRINTED BIOFUEL CELLS - Methods, systems, and devices are disclosed for implementing a biofuel cell device for extracting energy from a biofuel. In one aspect, a biofuel cell device includes a substrate, an anode including a catalyst to facilitate the conversion of a fuel in a biological fluid in an oxidative process that releases electrons captured at the anode, thereby extracting energy from the fuel substance, a cathode configured on the substrate adjacent to the anode and separated from the anode by a spacing region, and a load electrically coupled to the anode and cathode via electrical interconnects to obtain the extracted energy as electrical energy. | 10-30-2014 |
20140342247 | Flexible and Implantable Glucose Fuel Cell - A glucose fuel cell for reception into a given constrained volume of implantation in a vertebrate in which the glucose fuel cell has access to fluid containing glucose. The fuel cell includes an anode adapted to oxidize the glucose, a cathode adapted to reduce an oxidant, and a membrane disposed between the anode and the cathode and separating the anode from the cathode. At least one of the anode or cathode define a flexible sheet that is geometrically deformed to be receivable into the given constrained volume of implantation and increase volumetric power density. Related methods of making a glucose fuel cell of this type and implantable assemblies including the glucose fuel cell are also disclosed. | 11-20-2014 |
20140342248 | FUEL CELL - In a fuel cell ( | 11-20-2014 |
20150017553 | BIOFUEL CELL AND ELECTRONIC DEVICE - A small and high-density biofuel cell capable of easily supplying fuel; and an electronic apparatus are provided. | 01-15-2015 |
20150044579 | Electrochemical devices based on multiple junction ionic conductive membranes - A fuel cell ( | 02-12-2015 |
20150050566 | Enzyme Catalyzed Oxidation of Hydrocarbons - The present disclosure provides a method of generating electricity from a long chain hydrocarbon, said method comprising contacting the liquid non-polar substrate with a plurality of enzymes, wherein at least one enzyme is non-electric current/potential enzyme that functions as a catalyst for chemical reaction transforming a first substrate or byproduct to a second substance that can be used with an additional electric current/potential generating enzyme. | 02-19-2015 |
20150050567 | BIOFUEL CELL - The biofuel cell has a positive electrode, a negative electrode, an external circuit electrically connecting the positive electrode and the negative electrode, a positive electrode region where the positive electrode is disposed, a negative electrode region where the negative electrode is disposed, and a proton permeable membrane disposed between the positive electrode region and the negative electrode region, and the negative electrode region houses a biocatalyst together with the crushed material. The negative electrode region is separated by a mesh into an electrode region and a crushed material region, the negative electrode is housed in the electrode region, and the crushed material is housed in the crushed material region. | 02-19-2015 |
20150064579 | APPARATUS AND A METHOD FOR IN-VIVO POWER GENERATION - An apparatus for an in-vivo power generation comprises a fuel convertor for converting glucose in a fluid to a hydrogen rich, low carbon fuel such as ethanol or methanol by the action of a bioenzyme on the glucose in the CSF. The fluid can be any one of cerebro spinal fluid, urine and glucose solution. The apparatus further comprises a biofuel cell comprising a cathode chamber and an anode chamber with a membrane assembly sandwiched between them. The membrane assembly comprises a cathode, an anode and a proton exchange membrane. The cathode is coated with an enzyme laccase, which enables extraction of oxygen when the fluid is passed through the cathode chamber. The oxygen from the cathode chamber and the hydrogen in the hydrogen rich fuel from the anode chamber diffuses through the proton exchange membrane and reacts at an ionic level to result in water and electrical power. | 03-05-2015 |
20150295264 | Biological Fuel Cell and Methods - A fuel cell has an anode and a cathode with anode enzyme disposed on the anode and cathode enzyme is disposed on the cathode. The anode is configured and arranged to electrooxidize an anode reductant in the presence of the anode enzyme. Likewise, the cathode is configured and arranged to electroreduce a cathode oxidant in the presence of the cathode enzyme. In addition, anode redox hydrogel may be disposed on the anode to transduce a current between the anode and the anode enzyme and cathode redox hydrogel may be disposed on the cathode to transduce a current between the cathode and the cathode enzyme. | 10-15-2015 |
20150357666 | Self-Burying Sediment Energy Harvester - A self-burying microbial fuel cell can include a housing with conductive elements. An anode and cathode can be integrated into the housing at respective proximal and distal ends. A self-burying means for partially burying the microbial fuel cell in a submerged environment is included, so that the anode is buried and but the cathode is exposed to the submerged environment can be included. The self-burying means can include omni-directional vibrating device located within the housing, a plurality of intake ports formed in the housing for a pump within the housing. The pump outputs into a longitudinal fluid conduit that extends through the housing and exits at the distal end of the housing. When the vibrating device activates at the same time as the pump, temporary slurry can be formed at the extreme distal end of the device, and the vibrating action causes the microbial fuel cell to become partially buried. | 12-10-2015 |
20150364784 | Highly Efficient Enzymatic Bioanodes and Biocathodes - A biofuel cell comprising an anode and cathode wherein biocatalytic enzymes are purposefully oriented at each side of the fuel cell so as to increase and/or optimize the enzymes' performance in catalysis and/or electron transfer. | 12-17-2015 |
20160028090 | CATHODE FOR FUEL CELL - A cathode for a fuel cell includes, as a binder, a copolymer of a hydrophilic monomer and at least one of a silicone-containing monomer and a silicone-containing macromonomer. | 01-28-2016 |
20160149243 | ENERGY SAVING METHOD IN COMBINED SYSTEM OF BIOETHANOL PRODUCING DEVICE AND SOLID OXIDE FUEL CELL - The present invention is to provide, in a combined system of a bioethanol producing device and an SOFC, a method that is capable of further enhancing the electric power generation efficiency of the SOFC, and is also capable of achieving further reduction of the energy required for distillation of the fermented liquid. A part of an anode off-gas is refluxed to the water-containing ethanol vapor line from the mash column to the reforming device at a reflux ratio ((flow rate of reflux gas)/(flow rate of (anode off-gas)−(reflux gas))) of from 1 to 2. The ethanol concentration of the water-containing ethanol vapor is controlled by refluxing, to a range of from 25 to 35% by weight with water contained in the anode off-gas of the solid oxide fuel cell. | 05-26-2016 |
20160181622 | TEMPLATE DIRECTED FORMATION OF METAL NANOPARTICLES AND USES THEREOF | 06-23-2016 |
20160181648 | FUEL BIOCELL | 06-23-2016 |
20160380321 | PHOTOSYNTHETIC ELECTROCHEMICAL CELLS - The present disclosure provides photosynthetic electrochemical cells including photosynthetic compounds and methods of generating an electrical current using the photosynthetic electrochemical cells. | 12-29-2016 |