Electrochemical-based sensor with a redox polymer and redox enzyme entrapped by a dialysis membrane
First Claim
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1. An electrochemical-based sensor comprising:
- an electrode with at least one electrode surface;
a film disposed on the electrode surface, the film including;
a redox enzyme; and
a hydrophilic redox polymer; and
a dialysis membrane disposed on the film,wherein the dialysis membrane serves to entrap the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode; and
wherein the redox enzyme and hydrophilic redox polymer are of a molecular weight that essentially precludes passage of the redox enzyme and hydrophilic redox polymer through the dialysis membrane, thus entrapping the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode;
wherein the redox polymer is synthesized by co-polymerizing N-vinylpyrrolidinone and vinylferrocene.
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Abstract
An electrochemical-based sensor includes an electrode with at least one electrode surface, a film disposed on the electrode surface, and a dialysis membrane disposed on the film. The film includes a redox enzyme and a hydrophilic redox polymer (i.e., a polymer with an attached redox mediator(s)). In addition, the dialysis membrane serves to entrap the redox polymer and redox enzyme in the vicinity of the electrode. Such entrapment is accomplished by employing a redox enzyme and a hydrophilic redox polymer of a sufficiently high molecular weight that they do not pass through the dialysis membrane.
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Citations
4 Claims
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1. An electrochemical-based sensor comprising:
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an electrode with at least one electrode surface; a film disposed on the electrode surface, the film including; a redox enzyme; and a hydrophilic redox polymer; and a dialysis membrane disposed on the film, wherein the dialysis membrane serves to entrap the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode; and wherein the redox enzyme and hydrophilic redox polymer are of a molecular weight that essentially precludes passage of the redox enzyme and hydrophilic redox polymer through the dialysis membrane, thus entrapping the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode; wherein the redox polymer is synthesized by co-polymerizing N-vinylpyrrolidinone and vinylferrocene. - View Dependent Claims (2)
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3. An electrochemical-based sensor comprising:
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an electrode with at least one electrode surface; a film disposed on the electrode surface, the film including; a redox enzyme; and a hydrophilic redox polymer; and a dialysis membrane disposed on the film, wherein the dialysis membrane serves to entrap the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode; and wherein the redox enzyme and hydrophilic redox polymer are of a molecular weight that essentially precludes passage of the redox enzyme and hydrophilic redox polymer through the dialysis membrane, thus entrapping the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode; wherein the redox polymer is synthesized by grafting vinylferrocene to polyethylene glycol.
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4. An electrochemical-based sensor comprising:
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an electrode with at least one electrode surface; a film disposed on the electrode surface, the film including; a redox enzyme; and a hydrophilic redox polymer; and a dialysis membrane disposed on the film, wherein the dialysis membrane serves to entrap the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode; and wherein the redox enzyme and hydrophilic redox polymer are of a molecular weight that essentially precludes passage of the redox enzyme and hydrophilic redox polymer through the dialysis membrane, thus entrapping the redox enzyme and hydrophilic redox polymer in the vicinity of the electrode; wherein the redox polymer is synthesized by grafting ferrocene carboxaldehyde to polyethyleneimine (PEI).
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Specification