Flexible, layered biofuel cells

Takeo Miyake; Keigo Haneda; Syuhei Yoshino; Matsuhiko Nishizawa

doi:10.1016/j.bios.2012.05.041

Flexible, layered biofuel cells

Takeo Miyake^*, Keigo Haneda, Syuhei Yoshino, Matsuhiko Nishizawa

^*この研究の対応する著者

研究成果: Article › 査読

115 被引用数 (Scopus)

抄録

Similar to conventional electrolyte batteries, biofuel cells often need to be stacked in order to boost their single cell voltage (<1V) up to a practical level. Here, we report a laminated stack of biofuel cells that is composed of bioanode fabrics for fructose oxidation, hydrogel sheets containing electrolyte and fuel (fructose), and O₂-diffusion biocathode fabrics. The anode and cathode fabrics were prepared by modifying fructose dehydrogenase and bilirubin oxidase, respectively, on carbon nanotubes-decorated carbon fiber fabrics. The total thickness of the single set of anode/gel/cathode sheets is just 1.1mm. The laminated triple-layer stack produces an open-circuit voltage of 2.09V, which is a 2.8-fold increase over that of a single set cell (0.74V). The present layered cell (5mm×5mm) produces a maximum power of 0.64mW at 1.21V, a level that is sufficient to drive light-emitting diodes.

本文言語	English
ページ（範囲）	45-49
ページ数	5
ジャーナル	Biosensors and Bioelectronics
巻	40
号	1
DOI	https://doi.org/10.1016/j.bios.2012.05.041
出版ステータス	Published - 2013 2月 15
外部発表	はい

ASJC Scopus subject areas

バイオテクノロジー
生物理学
生体医工学
電気化学

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10.1016/j.bios.2012.05.041

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title = "Flexible, layered biofuel cells",

abstract = "Similar to conventional electrolyte batteries, biofuel cells often need to be stacked in order to boost their single cell voltage (<1V) up to a practical level. Here, we report a laminated stack of biofuel cells that is composed of bioanode fabrics for fructose oxidation, hydrogel sheets containing electrolyte and fuel (fructose), and O2-diffusion biocathode fabrics. The anode and cathode fabrics were prepared by modifying fructose dehydrogenase and bilirubin oxidase, respectively, on carbon nanotubes-decorated carbon fiber fabrics. The total thickness of the single set of anode/gel/cathode sheets is just 1.1mm. The laminated triple-layer stack produces an open-circuit voltage of 2.09V, which is a 2.8-fold increase over that of a single set cell (0.74V). The present layered cell (5mm×5mm) produces a maximum power of 0.64mW at 1.21V, a level that is sufficient to drive light-emitting diodes.",

keywords = "Biofuel cell, Carbon fabric bioelectrode, Enzyme-nanotube hybrid, Gas-diffusion biocathode, Series-connection",

author = "Takeo Miyake and Keigo Haneda and Syuhei Yoshino and Matsuhiko Nishizawa",

note = "Funding Information: The carbon fabric and carbon nanotubes were kindly donated from Toho Tenax Co. and Bayer Co., respectively. This work was partly supported by the Noguchi Institute. ",

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AU - Miyake, Takeo

AU - Haneda, Keigo

AU - Yoshino, Syuhei

AU - Nishizawa, Matsuhiko

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PY - 2013/2/15

Y1 - 2013/2/15

N2 - Similar to conventional electrolyte batteries, biofuel cells often need to be stacked in order to boost their single cell voltage (<1V) up to a practical level. Here, we report a laminated stack of biofuel cells that is composed of bioanode fabrics for fructose oxidation, hydrogel sheets containing electrolyte and fuel (fructose), and O2-diffusion biocathode fabrics. The anode and cathode fabrics were prepared by modifying fructose dehydrogenase and bilirubin oxidase, respectively, on carbon nanotubes-decorated carbon fiber fabrics. The total thickness of the single set of anode/gel/cathode sheets is just 1.1mm. The laminated triple-layer stack produces an open-circuit voltage of 2.09V, which is a 2.8-fold increase over that of a single set cell (0.74V). The present layered cell (5mm×5mm) produces a maximum power of 0.64mW at 1.21V, a level that is sufficient to drive light-emitting diodes.

AB - Similar to conventional electrolyte batteries, biofuel cells often need to be stacked in order to boost their single cell voltage (<1V) up to a practical level. Here, we report a laminated stack of biofuel cells that is composed of bioanode fabrics for fructose oxidation, hydrogel sheets containing electrolyte and fuel (fructose), and O2-diffusion biocathode fabrics. The anode and cathode fabrics were prepared by modifying fructose dehydrogenase and bilirubin oxidase, respectively, on carbon nanotubes-decorated carbon fiber fabrics. The total thickness of the single set of anode/gel/cathode sheets is just 1.1mm. The laminated triple-layer stack produces an open-circuit voltage of 2.09V, which is a 2.8-fold increase over that of a single set cell (0.74V). The present layered cell (5mm×5mm) produces a maximum power of 0.64mW at 1.21V, a level that is sufficient to drive light-emitting diodes.

KW - Biofuel cell

KW - Carbon fabric bioelectrode

KW - Enzyme-nanotube hybrid

KW - Gas-diffusion biocathode

KW - Series-connection

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Flexible, layered biofuel cells

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