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Challenges for successful implantation of biofuel cells
International audienceThere is a growing interest in the design and engineering of operational biofuel cells that can be implanted. This review highlights the recent progress in the electrochemistry of biofuel cell technologies, but with a particular ...
Abdelkader Zebda +2 more
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Extended lifetime biofuel cells
Chemical Society Reviews, 2008Over the last 40 years, researchers have been studying and improving enzymatic biofuel cells, but until the last five years, the technology was plagued by short active lifetimes (typically 8 hours to 7 days) that prohibited the commercial use of this technology.
Michael J, Moehlenbrock +1 more
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International Journal of Hydrogen Energy, 2021
Abstract Looking at the past decades, intense efforts have been made on one of the flourishing technology called biofuel cells with respect to the power or energy crisis prevailing all over the globe. Global researchers are taking part in the development of biofuels cells by exploiting novel characteristics of unconventional materials at atomic and ...
Archita Sharma +2 more
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Abstract Looking at the past decades, intense efforts have been made on one of the flourishing technology called biofuel cells with respect to the power or energy crisis prevailing all over the globe. Global researchers are taking part in the development of biofuels cells by exploiting novel characteristics of unconventional materials at atomic and ...
Archita Sharma +2 more
openaire +1 more source
Current Opinion in Biotechnology, 2007
Enzyme-based biofuel cells possess several positive attributes for energy conversion, including renewable catalysts, flexibility of fuels (including renewables), and the ability to operate at room temperature. However, enzyme-based biofuel cells remain limited by short lifetimes, low power densities and inefficient oxidation of fuels.
Shelley D, Minteer +2 more
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Enzyme-based biofuel cells possess several positive attributes for energy conversion, including renewable catalysts, flexibility of fuels (including renewables), and the ability to operate at room temperature. However, enzyme-based biofuel cells remain limited by short lifetimes, low power densities and inefficient oxidation of fuels.
Shelley D, Minteer +2 more
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Flexible, layered biofuel cells
Biosensors and Bioelectronics, 2013Similar to conventional electrolyte batteries, biofuel cells often need to be stacked in order to boost their single cell voltage (
Takeo, Miyake +3 more
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A review: Evolution of enzymatic biofuel cells
Journal of Environmental Management, 2021Ever-growing demands for energy, the unsustainability of fossil fuel due to its scarcity and massive impact on global economies and the environment, have encouraged the research on alternative power sources to work upon for the governments, companies, and scientists across the world. Enzymatic biofuel cells (eBFCs) is one category of fuel cell that can
Sufia ul Haque +4 more
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Water Intelligence Online, 2015
The increasing demand for energy and the related environmental concerns are the main drivers for the strong interest in Biomass Fermentation towards usage in Fuel Cells. The integration of Biomass Fermentation (BF) and Fuel Cells (FC) technology creates a new and interdisciplinary research area.
P. Lens +3 more
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The increasing demand for energy and the related environmental concerns are the main drivers for the strong interest in Biomass Fermentation towards usage in Fuel Cells. The integration of Biomass Fermentation (BF) and Fuel Cells (FC) technology creates a new and interdisciplinary research area.
P. Lens +3 more
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2016
This describes fuel cell-based power generation using biofuels. After giving an overview of biofuels which are available, such as biogas, bioethanol, and biodiesel oil, hydrogen production and power generation with solid oxide fuel cells are explained based on cell performance data.
Yusuke Shiratori, Quang-Tuyen Tran
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This describes fuel cell-based power generation using biofuels. After giving an overview of biofuels which are available, such as biogas, bioethanol, and biodiesel oil, hydrogen production and power generation with solid oxide fuel cells are explained based on cell performance data.
Yusuke Shiratori, Quang-Tuyen Tran
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Biocatalytic generation of power from biofuels: biofuel cells
Biofuels, 2010Biofuel cells refer to a class of fuel cells that apply biocatalysts to power generation. Early observations of electricity generation from glucose and other organic compounds in the presence of microbes dates back to the early 1900s, while the growing interest in searching for bio-based alternative energy resources has spurred a new wave of biofuel ...
Hongfei Jia, Ping Wang
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