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726 results about "Biofuel Cells" patented technology

An enzymatic biofuel cell is a specific type of fuel cell that uses enzymes as a catalyst to oxidize its fuel, rather than precious metals. Enzymatic biofuel cells, while currently confined to research facilities, are widely prized for the promise they hold in terms of their relatively inexpensive components and fuels, ...

Materials and configurations for scalable microbial fuel cells

Devices for production of electricity and / or hydrogen gas are provided by the present invention. In particular, microbial fuel cells for production of electricity and modified microbial fuel cells for production of hydrogen are detailed. A tube cathode is provided which includes a membrane forming a general tube shape. An anode is provided which has a specific surface area greater than 100 m2 / m3. In addition, the anode is substantially non-toxic to anodophilic bacteria. Combinations of particular anodes and cathodes are included in microbial fuel cells and modified microbial fuel cells.
Owner:PENN STATE RES FOUND

Immobilized enzymes in biocathodes

Disclosed is an improved biofuel cell having a cathode comprising a dual function membrane, which contains an oxygen oxidoreductase enzyme immobilized within a buffered compartment of the membrane and an electron transport mediator which transfers electrons from an electron conducting electrode to the redox reaction catalyzed by the oxygen oxidoreductase enzyme. The improved biofuel cell also has an anode that contains an oxidoreductase enzyme that uses an organic fuel, such as alcohol, as a substrate. An electric current can flow between the anode and the cathode.
Owner:SAINT LOUIS UNIVERSITY

Implantable biofuel cell system based on nanostructures

A bio-implantable electrochemical cell system for active implantable medical devices. In one embodiment, the fuel cell includes an electrode structure consisting of immobilized anode and cathode enzymes deposited on nanostructured high-surface-area metal nanowires or carbon nanotube electrodes. The anode enzyme comprises immobilized glucose oxidase and the cathode enzyme comprises immobilized laccase. Glucose is oxidized at the surface of the anode and oxygen is reduced at the surface of the cathode. The coupled glucose oxidation-oxygen reduction reactions provide a self-generating current source. In another embodiment, the nanowires or carbon nanotubes, along with the adjacent surface anode and cathode electrodes, are coated with immobilized glucose oxidase and immobilized laccase containing biocolloidal substrates, respectively. This results in the precise construction of an enzyme architecture with control at the molecular level, while increasing the reactive surface area and corresponding output power by at least two orders of magnitude.
Owner:NANOSOLUTIONS

Miniature biological fuel cell that is operational under physiological conditions, and associated devices and methods

A fuel cell is provided with an anode and a cathode. The anode is in electrical communication with an anode enzyme and the cathode is in electrical communication with a cathode enzyme. The anode enzyme is preferably an oxidase or a dehydrogenase. The cathode enzyme is a copper-containing enzyme, such as a laccase, an ascorbate oxidase, a ceruloplasmine, or a bilirubin oxidase. Preferably, the cathode enzyme is operable under physiological conditions. Redox polymers serve to wire the anode enzyme to the anode and the cathode enzyme to the cathode. The fuel cell can be very small in size because it does not require a membrane, seal, or case. The fuel cell can be used in connection with a biological system, such as a human, as it may operate at physiological conditions. By virtue of its size and operability at physiological conditions, the fuel cell is of particular interest for applications calling for a power source implanted in a human body, such as a variety of medical applications.
Owner:ABBOTT DIABETES CARE INC

Miniature biological fuel cell that is operational under physiological conditions, and associated devices and methods

A fuel cell is provided with an anode and a cathode. The anode is in electrical communication with an anode enzyme and the cathode is in electrical communication with a cathode enzyme. The anode enzyme is preferably an oxidase or a dehydrogenase. The cathode enzyme is a copper-containing enzyme, such as a laccase, an ascorbate oxidase, a ceruloplasmine, or a bilirubin oxidase. Preferably, the cathode enzyme is operable under physiological conditions. Redox polymers serve to wire the anode enzyme to the anode and the cathode enzyme to the cathode. The fuel cell can be very small in size because it does not require a membrane, seal, or case. The fuel cell can be used in connection with a biological system, such as a human, as it may operate at physiological conditions. By virtue of its size and operability at physiological conditions, the fuel cell is of particular interest for applications calling for a power source implanted in a human body, such as a variety of medical applications.
Owner:ABBOTT DIABETES CARE INC

Scalable microbial fuel cell with fluidic and stacking capabilities

A fuel cell having: a proton exchange membrane; anode and cathode housings containing chambers; a three-dimensional anode and cathode. Each housing may have a feed passage, a waste passage, and two through passages. The anode feed passage and the anode waste passage are each coupled to the anode chamber and to one of the cathode through passages and vice versa. The anode chamber may have bacteria capable of donating electrons to the anode upon exposure to a fuel. Solutions may be circulated through the passages and chambers.
Owner:UNITED STATES OF AMERICA

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.
Owner:ABBOTT DIABETES CARE INC

Micro integrated cardiac pacemaker and distributed cardiac pacing system

A micro integrated cardiac pacemaker includes a control unit for outputting a control signal according to cardiograph information, heart stimulating means for stimulating heart tissue in response to the control signal, cardiograph information extracting means for extracting cardiograph information and outputting it to the control unit, and a power supply unit for supplying drive power. The power supply unit is a biological fuel cell that takes out electrons by oxidation of a biological fuel. The biological fuel cell includes an anode and a cathode. An oxidase of a biological fuel and a mediator are immobilized on the cathode. Blood and / or body fluid are used as an electrolytic solution, and a biological fuel and oxygen in the blood and / or the fluid are used. The biological fuel cell is attached to the end of a catheter and implanted into the heart, and the catheter is withdrawn, without incising the breast.
Owner:FUJIKIN INC +1

Enzyme electrode

There is provided with an enzyme electrode which can be used as a sensor with high sensitivity, a biofuel cell with high output, and an electrochemical reaction device with high reaction efficiency. The enzyme electrode has a conductive base plate, a fusion protein immobilized to the conductive base plate and an electron transfer mediator, wherein the fusion protein is a fusion protein of a enzyme 1 to catalyze a chemical reaction for producing a reaction product 1 from a reaction substrate 1 and a enzyme 2 to catalyze a chemical reaction for producing a reaction product 2 from a reaction substrate 2, and at least one chemical substance of the reaction product 1 is identical to at least one chemical substance of the reaction substrate 2.
Owner:CANON KK

Integrated biofuel cell with aligned nanotube electrodes and method of use thereof

The present disclosure provides for a method of forming, producing or manufacturing functionalized and soluble nanomaterials, most specifically carbon nanotubes on a substrate, which can be used in the production or manufacture of biofuel cells. One embodiment provides for the coupling of biofuel cells with a nanomaterial, wherein the nanomaterial supports catalytic enzymes. Another embodiment provides for a biofuel cell which uses enzymes immobilized on nanomaterials as electrodes. Another embodiment provides for the construction of a biofuel cell, wherein the application of a microwave process, and / or an electrochemical technique, is used to develop a biofuel cell having nanomaterial / enzyme-based electrodes on a substrate. Another embodiment provides for a composite of nanomaterial grown on a substrate, coupled to tethered or bonded enzymes, which makes it possible to fabricate direct electron transfer electrodes. Another embodiment provides for an implanted device. Another embodiment provides for a biofuel cell that can also function as a biosensor. A method for producing a nanomaterial-substrate system is also disclosed.
Owner:NEW JERSEY INSTITUTE OF TECHNOLOGY

Double-chamber alga microbial fuel cell and method thereof for treating waste water and realizing zero carbon emission

The invention discloses a double-chamber alga microbial fuel cell and a method thereof for treating waste water and realizing zero carbon emission, which relates to a microbial fuel cell and a method for treating waste water. The invention solves the problem that the traditional microbial fuel cell can generate a large amount of CO2 in the process of treating waste water. In the invention, a cation exchange membrane is vertically arranged in a box body of a reactor; an anode chamber and a cathode chamber are formed in the box body of the reactor; an anode is arranged in the anode chamber; a cathode is arranged in the cathode chamber; leads are connected with the anode and the cathode; one end of a gas duct is hermetically connected with a gas collecting chamber, and the other end of the gas duct is arranged at the bottom of the cathode chamber; and a gas collecting device is hermetically installed at a gas outlet. The method comprises the following steps: (1) starting the reactor; and (2) introducing the waste water into the cathode chamber and the anode chamber, catabolizing organic matters by microbes at room temperature, simultaneously obtaining electrical energy, and introducing the CO2 generated in the anode chamber into the cathode chamber to be used by the alga at the cathode for photosynthesis. The invention realizes zero emission of CO2 and simultaneously can recover electrical energy, thereby really changing waste into resources.
Owner:HARBIN INST OF TECH

Implantable, miniaturized microbial fuel cell

A miniaturized microbial fuel cell is described deriving electrical power from the biological activity of microbes, typically the metabolism of glucose by baker's yeast. Microfabrication techniques are used to miniaturize the components as well as the overall fuel cell and are capable of integration with other biomedical and implantable devices. Substantial reductions in both the size and the cost of implantable systems are thereby achievable. Electrode structures are used that facilitate electron transfer and power production giving favorable power densities in a miniature fuel cell. In addition, the microbial fuel cell of the present invention extracts glucose or other metabolite(s) from the ambient body fluids as its fuel, thus achieving a renewable, long-term power source for implantable biomedical devices.
Owner:RGT UNIV OF CALIFORNIA

Nitrogen-doped graphene catalyst and preparation method and application thereof

The invention provides a nitrogen-doped graphene catalyst and a preparation method and application thereof. The nitrogen-doped graphene catalyst is characterized by being prepared by roasting a nitrogen-doped graphene precursor; the nitrogen-doped graphene precursor is prepared from the raw materials including at least one of non-precious metal salt and hydrate thereof, graphite oxide and nitrogen-containing small organic molecules; in the raw materials, the mass percent of the graphite oxide is 10-89wt%, the mass percent of the nitrogen-containing small organic molecules is 10-89wt%, and the mass percent of at least one of non-precious metal salt and hydrate thereof is 1-10wt%. The preparation process of the nitrogen-doped graphene provided by the invention is simple, the process is easy to operate, the activity is high, the cost is low, and industrial production is easy to implement; the nitrogen-doped graphene can be applied to the fields of fuel cells, metal-air cells, microbial fuel cells and the like.
Owner:DONGHUA UNIV

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.
Owner:ABBOTT DIABETES CARE INC

Biofuel cell

The present invention discloses a new type of biofuel cell, based on the microbial regeneration of the oxidant, ferric ions. The bio-fuel cell is based on the cathodic reduction of ferric to ferrous ions, coupled with the microbial regeneration of ferric ions by the oxidation of ferrous ions, with fuel (such as hydrogen) oxidation on the anode. The microbial regeneration of ferric ions is achieved by chemolithotrophic microorganisms such as Acidithiobacillus ferroxidans. Electrical generation is coupled with the consumption of carbon dioxide from atmosphere and its transformation into microbial cells, which can be used as a single-cell protein.
Owner:UNIV OF WESTERN ONTARIO

Microfluidic Biofuel Cell

Microfluidic biofuel cells comprising a bioanode and / or a biocathode are formed using microfluidic principles and soft lithography. The enzymes utilized in the redox reactions at the bioanode and / or the biocathode are stabilized in a micellar or inverted micellar structure. The biofuel cell is used to produce high power densities.
Owner:SAINT LOUIS UNIVERSITY

Method for heavy metal elimination or precious metal recovery using microbial fuel cell

The present invention relates to a method in which a microbial fuel cell (MFC) is used in order to produce electrical power while also either eliminating a heavy metal or recovering a precious metal from waste water containing the heavy metal or the precious metal, and, more particularly, the invention has advantages including effective elimination of Hg2+ in the form of a solid precipitate or deposit of Hg or Hg2Cl2, and, incidentally, power is produced, by-products are rendered harmless and long-term economic operation is achieved.
Owner:RM TECH

Enzyme electrode

The invention provides an enzyme electrode usable as a highly sensitive sensor, a high-output bio fuel cell or an electrochemical reaction device of a high reaction efficiency. The enzyme electrode includes an electroconductive base member and an enzyme, wherein the enzyme is formed by an associated protein in which two or more different enzyme proteins are associated.
Owner:CANON KK

Phycomycetes microbial fuel cell and preparation method and application of phycomycetes microbial fuel cell

The invention belongs to the technical field of biological fuel cells, and discloses a phycomycetes microbial fuel cell and a preparation method and application of the phycomycetes microbial fuel cell. The phycomycetes microbial fuel cell comprises an anode chamber, a cathode chamber, a transverse diaphragm, an anode, a cathode and an outer circuit, wherein phycomycetes, a culture solution and a carbon source are respectively installed in the anode chamber and the cathode chamber. In the operation process of the phycomycetes microbial fuel cell, operation is conducted by repeatedly converting the electrodes; in the whole operation process, with the help of synergistic effects of the phycomycetes, the effect that azo dye pollutants are degraded efficiently is achieved; the electrodes are alternately used for degrading the azo dye pollutants, therefore, the physiologically toxic effect on current-producing bacteria by the azo dye pollutants is eliminated, and continuous efficient current generation is realized; the phycomycetes is adopted as a biocatalyst for both the anode and the cathode, no metal catalyst is used for modification, no exogenous artificial mediator is added, aeration is not needed, therefore, the construction and operation cost of the microbial fuel cell is lowered, the sustainability of the microbial fuel cell is enhanced, and industrial amplified production of the microbial fuel cell can be conducted beneficially.
Owner:SOUTH CHINA UNIV OF TECH

Algal fungi synergistic ecological type microbial fuel cell and method for generating electricity by utilizing water purification

The invention discloses an algal fungi synergistic ecological type microbial fuel cell and a method for generating electricity by utilizing water purification. The fuel cell consists of a fuel cell body, a water inlet distribution system, an anaerobic reaction area, a wetland ecological anode area and an algal fungi symbiotic cathode area. A cation exchange resin is added into a matrix, straw biological carbon is adopted in the wetland matrix, the conductivity is improved, and the internal resistance is reduced; an algal ecological cathode is constructed, and energy conservation and low carbon are realized; and moreover, a deep anaerobic zone is increased on the lower layer of the anode area and adapts to sewage feeding of high-concentration COD, the height of the cell body is increased, and the electrical activity of the cell is improved. The ecological wetland and the microbial fuel cell are combined, a wetland ecological anode and an algal fungi symbiotic oxygen-releasing ecological cathode are constructed, the ecological type microbial fuel cell is formed, and sewage treatment and energy recycling are realized.
Owner:HARBIN INST OF TECH

Enzyme electrode, and sensor and biofuel cell using the same

The present invention relates to an enzyme electrode for transporting electric charge formed by an oxidation-reduction reaction in an enzyme to a conductive member at a high speed. The enzyme electrode specifically has a π-conjugated metal complex molecule immobilized on the conductive member and the enzyme immobilized on the conductive member through the π-conjugated metal complex molecule.
Owner:CANON KK

Rotating biological-cathode microbiological fuel cell and sewage treatment method thereof

The invention relates to a rotating biological-cathode microbiological fuel cell and a sewage treatment method thereof, and belongs to the technical field of sewage treatment and resource recycling in environment engineering. The invention is characterized in that a cathode is made of carbon fibers and fixed to a circular ring. The outer layer of the rotating cathode biomembrane mainly comprises aerobic nitrifiers for completing the short-range nitrification of ammonia nitrogen. In the inner layer of the cathode biomembrane, nitrite nitrogen and nitrate nitrogen are used as electron acceptors, an electrode is an electron donor and used for denitrification. The structure of a reactor realizes controllable rotation speed of the cathode, controllable distance between the cathode and the anode, and controllable submerging proportion of the cathode biomembrane, and has the advantages of flexible operation, and convenient regulation and control. The rotating biological-cathode microbiological fuel cell can realize control on dissolved oxygen in a single-chamber reactor; and thus, the invention reduces the internal resistance of the cell, accelerates the biomembrane renewing, realizes the short-range nitrification and denitrification, synchronously completes decarburization and denitrification with low consumption and high efficiency, and extracts chemical energy from pollutants to form electric energy output.
Owner:DALIAN UNIV OF TECH

Method and device for storing bioelectrical energy by virtue of capacitive anode

The invention discloses a method and device for storing bioelectrical energy by virtue of a capacitive anode. The device comprises an anode chamber, a cathode chamber and an ion exchange membrane, wherein the anode chamber and the cathode chamber are divided by the ion exchange membrane, and the anode of the anode chamber adopts a capacitive electrode; electricity generating bacteria and organic matters are added into the anode chamber to form a MFC (Microbial Fuel Cell) anode chamber. The electrode decorated with a super capacitor material is put in the MFC anode chamber, a built-in capacitance system is formed in the cell, and an electricity storing process of electricity generating bacteria bioelectricity in the anode chamber is realized under the condition of an open circuit. A load circuit is accessed, the device externally discharges, and the discharge of the stored bioelectricity can be realized. Meanwhile, the bioelectricity stored under the condition of the open circuit of the decorated anode is utilized to realize the promotion of the transient output power of an MFC when the circuit accessing the device is connected.
Owner:SOUTH CHINA UNIV OF TECH

Measuring method of biochemical oxygen demand and BOD sensor and applications

The invention discloses a measuring method of biochemical oxygen demand and a BOD sensor and applications. The measuring method comprises the following steps of: constructing a unilocular air cathode no-amboceptor microbial fuel cell, adding a sample into the microbial fuel cell; measuring output voltage generated by the microbial fuel cell and calculating electrical quantity value; and substituting the electrical quantity value into a liner equation and calculating the BOD value and the like. The invention provides the specific BOD sensor and applications thereof for implementing the method; the lowest detection limit of the measuring method is 0.2mg / L, the measuring range of BOD is 5 to 50mg / L, and the relative error with the detection result of a culture method at the temperature of 20 plus or minus 1 DEG C for 5 days is less than 4.0%. The invention has simple and programmable operation process, stable and fast measuring process, can realize online detection, has low cost and is suitable for promotion and application commonly.
Owner:福建省致青生态环保有限公司

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.
Owner:ABBOTT DIABETES CARE INC

Process for producing hydrogen

A process for producing hydrogen from bio-oxidisable material is disclosed herein. The process comprises the steps of—introducing the bio-oxidisable material into a reactor provided with an anode and a cathode optionally separated by a cation exchange membrane and containing anodophilic bacteria in an aqueous medium;—applying a potential between the anode and cathode 0.05 and 1.5 volt, while maintaining a pH of between 3 and 9 in the aqueous medium;—collecting hydrogen gas at the cathode. The hydrogen production process can be intermittently switched to an electric power generation stage (biofuel cell) by adding oxygen to the cathode and separating the anode and cathode spaces by means of a cation exchange membrane.
Owner:PAQUES I P

Two-chambered alga microbial fuel cell and treatment wastewater method of low energy consumption thereof

The invention relates to a two-chambered alga microbial fuel cell and treatment wastewater method of low energy consumption thereof, belonging to the field of wastewater treatment. The invention resolves the problem that the current aerobic biological treatment process has large energy consumption and high cost because of adopting the imposed aeration. An anode chamber of two-chambered alga microbial fuel cell is connected with a cathode chamber thereof through a diaphragm; a vacuum pad is arranged on the position among the diaphragm, the anode chamber and the cathode chamber; the anode chamber is provided with an anode and the cathode chamber is provided with a cathode; the anode and the cathode are connected with an external circuit by a lead wire, wherein the external circuit is positioned outside the two-chambered alga microbial fuel cell. The method comprises the following steps: firstly, a reactor is started; secondly, the wastewater enters into the cathode chamber and the anode chamber, the microorganism degrades to metabolize organics and simultaneously gets electrical energy under the room temperature; cathode alga provides oxygen for the cathode chamber by the photosynthesis. The alga microbial fuel cell can be the main structure of wastewater and aerobic treatment, which can replace the roles of an aeration tank, a biological filter, an aeration oxidation pond and the like in a wastewater treatment factory so as to reduce the energy consumption of the aerobic biological treatment.
Owner:HARBIN INST OF TECH

Microorganism electrochemical device for in-situ remediation of polluted water and bottom mud and method for in-situ remediation of polluted water and bottom mud

The invention discloses a microorganism electrochemical device for in-situ remediation of polluted water and bottom mud and a method for in-situ remediation of polluted water and bottom mud, and relates to a microorganism electrochemical device and a method for in-situ remediation of polluted water and bottom mud. The invention aims at solving the problems that polluted water and bottom mud in rivers and lakes are complex to remedy, high in cost and high in maintenance cost by using an existing biological fuel battery. The microorganism electrochemical device comprises a cathode, an anode, a first lead, a second lead and a charge-discharge device. The method comprises the following steps: putting the anode of the microorganism electrochemical device for in-situ remediation of polluted water and bottom mud into polluted bottom mud, putting the cathode into polluted water above the polluted bottom mud, connecting the cathode and the anode with the cathode and the anode of the charge-discharge device by using the first lead and the second lead respectively, and operating for 18 days, thereby obtaining water and bottom mud from which pollutants are removed. The microorganism electrochemical device and the method can be applied to in-situ remediation of polluted water and bottom mud.
Owner:HARBIN INST OF TECH +1

Sewage treatment method coupled with organic membrane and electro-Fenton catalytic technology

A sewage treatment method coupled with an organic membrane and electro-Fenton catalytic technology belongs to the technical field of sewage treatment in environmental engineering. The sewage treatment method is characterized in that a conductive polymer modified organic fabric membrane is used as a cathode membrane, while a stainless steel mesh is used as an anode, a Fenton reagent is formed in the vicinity of the membrane under the conditions of appropriate electric field, dissolved oxygen, pH value and ferrous ion concentration, and the reaction liquid is circulated through membrane filtration so that the Fenton reagent is dispersed in the system. For the characteristics of sewage, the type and the size of the cathode membrane, the voltage and the like can be optimized. Power generation microorganisms in sewage-treatment microbial fuel cells generate electric power by utilizing sewage, oxygen is reduced by using electrons transmitted from the anode while the organical membrane serves as the cathode; and hydrogen peroxide is formed to arouse Fenton reaction so as to degrade pollutants. The sewage treatment method provided by the invention has the following advantages that organic membrane separation is combined with the electro-Fenton catalytic technology, the pollution and the load of the membrane assembly are reduced, effective contact and reaction of the pollutants and the membrane electrode are enhanced by membrane filtration; and furthermore, through membrane filtration, large-particle pollutants difficult to degrade can be removed.
Owner:DALIAN UNIV OF TECH
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