BIOANODE AND BIOCATHODE STACK ASSEMBLIES

US 20110039164A1
Filed: 11/07/2007
Published: 02/17/2011
Est. Priority Date: 11/06/2006
Status: Abandoned Application

First Claim

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1-114. -114. (canceled)

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Abstract

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.

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134 Claims

1-114. -114. (canceled)

115. A biofuel cell device for generating electrical current comprising:
- 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;
  
  an anode assembly comprising at least one bioanode positioned for contact with fuel fluid in said fuel reservoir;
  
  a cathode assembly comprising at least one cathode positioned for flow of fuel fluid through the bioanode to the cathode; and
  
  a controller operatively connected to the anode assembly and the cathode assembly for controlling the output of electrical current from the biofuel cell device.
- View Dependent Claims (116, 117, 118)
- - 116. The biofuel cell device of claim 115 wherein said at least one cavity in the manifold has an inlet port surface and an outlet port surface, said outlet port surface being located at an elevation higher than said inlet port surface.
  - 117. The biofuel cell device of claim 115 wherein the bioanode comprises a current collector, a gas diffusion layer, and a catalyst layer comprising an enzyme and an enzyme immobilization material;
    - and the enzyme immobilization material comprises a micellar or inverted micellar structure.
  - 118. The biofuel cell device of claim 115 wherein said controller comprises:
    - a controller for controlling an output of the fuel cell according to a defined operating mode; and
      
      a switch circuit operatively connected between the fuel cell and the load, said switch circuit being responsive to the controller for alternately connecting the fuel cell to the load and disconnecting the fuel cell from the load according to the operating mode.

119. A biofuel cell device for supplying electrical power to a load, said device comprising:
- a fuel cell;
  
  a controller operatively connected to the fuel cell for controlling an output of the fuel cell according to a defined operating mode; and
  
  either(i) a switch circuit situated between the fuel cell and the load, said switch circuit being responsive to the controller for alternately connecting the fuel cell to the load and disconnecting the fuel cell from the load according to the operating mode;
  
  or(ii) a supplemental power circuit responsive to the controller for selectively connecting a supplemental power source to the output of the fuel cell thereby supplementing the electrical power supplied to the load by the biofuel cell device.

120. A biofuel cell device for supplying electrical power to a load, said device comprising:
- a plurality of fuel cells electrically connected in series;
  
  a controller operatively connected to each of the fuel cells for controlling an output of each of the fuel cells according to at least one of a plurality of defined operating modes; and
  
  a switch circuit operatively connected between the fuel cells and the load, said switch circuit being responsive to the controller for selectively connecting at least one of the fuel cells to the load according to the operating mode.
- View Dependent Claims (121)
- - 121. The biofuel cell device of claim 120 wherein the fuel cell comprises a bioanode and a cathode;
    - the bioanode comprises a current collector, a gas diffusion layer, and a catalyst layer comprising an enzyme and an enzyme immobilization material; and
      
      the enzyme immobilization material comprises a micellar or inverted micellar structure.

122. A particle comprising a core coated with an immobilized enzyme, the enzyme being immobilized in an immobilization material and either (i) having an activity of at least about 0.65 relative to its initial activity before immobilization and coating, or (ii) retaining at least about 75% of its initial catalytic activity for at least 3 days when the enzyme is continuously catalyzing a chemical transformation.
- View Dependent Claims (123, 124, 125, 126)
- - 123. The particle of claim 122 wherein the immobilized enzyme has an activity of at least about 0.85 relative to its initial activity before immobilization and coating.
  - 124. The particle of claim 122 wherein the coating comprises from about 0.1 wt. % to about 29 wt. % of the enzyme, about 0.1 wt. % to about 43 wt. % of the enzyme immobilization material, and up to about 29 wt. % of the electron mediator.
  - 125. The particle of claim 122 wherein the immobilized enzyme retains at least about 75% of its initial catalytic activity for at least 30 days when the enzyme is continuously catalyzing a chemical transformation.
  - 126. The particle of claim 122 wherein the enzyme immobilization material comprises a micellar or inverted micellar structure.

127. A process for preparing a particle coated with an immobilized enzyme or organelle, the process comprising:
- mixing a solution comprising an enzyme or organelle and a suspension comprising at least one core particle, an immobilization material, and a liquid medium to form a mixture; and
  
  spray-drying the mixture.
- View Dependent Claims (128)
- - 128. The process claim 127 wherein the solution comprises from about 0.1 wt. % to about 15 wt. % of the enzyme and about 85 wt. % to about 99.9 wt. % of a solvent, and the suspension comprises from about 0.1 wt. % to about 28.7 wt. % of the core particles, from about 4 wt. % to about 10 wt. % of the enzyme immobilization material, and from about 50 wt. % to about 75 wt. % of the liquid medium.

129. A self-supporting electron conductor comprising:
- a monolayer comprised of a first electrically conductive material having high surface area for transferring electrons, a second electrically conductive material for supporting the electron conductor, and a binder, wherein the weight ratio of the second electrically conductive material to the first electrically conductive material is at least 0.5;
  
  1 to provide sufficient rigidity to the electron conductor for it to be self-supporting.
- View Dependent Claims (130, 131, 132, 133, 134)
- - 130. The electron conductor of claim 129 wherein an electron mediator is grafted to at least a portion of the first electrically conductive material.
  - 131. The electron conductor of claim 129 wherein the weight ratio of the second electrically conductive material to the first electrically conductive material is at least 0.6:
    - 1.
  - 132. The electron conductor of claim 131 wherein the weight ratio of the binder to the second electrically conductive material is at least 0.8:
    - 1.
  - 133. The electron conductor of claim 129 wherein an enzyme layer is in contact with a surface of the monolayer, the enzyme layer comprising an enzyme immobilized in an enzyme immobilization material and in contact with a nanostructure comprised of nanowires grafted to carbon black particles.
  - 134. The electron conductor of claim 133 wherein the enzyme immobilization material comprises a micellar or inverted micellar structure.

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Current Assignee
Akermin, Inc.
Original Assignee
Akermin, Inc.
Inventors
Trentmann, David, Zhu, Yimin, Gellett, Wayne L., Nelson, Scott A., Whited, Jacob, Kesmez, Mehmet, Schumacher, Joshua, Akers, Niki L., Le, David Bao

Application Number

US12/513,718
Publication Number

US 20110039164A1
Time in Patent Office

Days
Field of Search
US Class Current

429/401
CPC Class Codes

H01M 16/006   of fuel cells with recharge...

H01M 4/86   Inert electrodes with catal...

H01M 4/8605   Porous electrodes

H01M 4/90   Selection of catalytic mate...

H01M 8/02   Details electrodes H01M4/86...

H01M 8/0491   of fuel cell stacks

H01M 8/16   Biochemical fuel cells, i.e...

Y02E 60/10   Energy storage using batteries

Y02E 60/50   Fuel cells

BIOANODE AND BIOCATHODE STACK ASSEMBLIES

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

85 Citations

134 Claims

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BIOANODE AND BIOCATHODE STACK ASSEMBLIES

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

85 Citations

134 Claims

Specification

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Solutions

Use Cases

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