Microbial Biofuel Cells: Fundamental Principles, Development and Recent Obstacles [PDF]
Biosensors, 2023 This review focuses on the development of microbial biofuel cells to demonstrate how similar principles apply to the development of bioelectronic devices.
Kasparas Kižys +7 more
doaj +2 more sources
Research Progress and Prospects of Nanozyme-Based Glucose Biofuel Cells [PDF]
Nanomaterials, 2021 The appearance and evolution of biofuel cells can be categorized into three groups: microbial biofuel cells (MBFCs), enzymatic biofuel cells (EBFCs), and enzyme-like nanomaterial (nanozyme)-based biofuel cells (NBFCs).
Phan Gia Le, Moon Il Kim
doaj +2 more sources
Recent Advances in Microfluidic Biofuel Cells [PDF]
BiosensorsTraditionally, fuel cells operate by using small fuel molecules such as hydrogen and methanol to produce energy, water, and carbon dioxide. Enzyme biofuel cells use enzymes rather than precious metals as electrode catalysts.
Takahiro Kawaguchi +3 more
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Cellobiose dehydrogenase in biofuel cells. [PDF]
Curr Opin Biotechnol, 2022 Enzymatic biofuel cells utilize oxidoreductases as highly specific and highly active electrocatalysts to convert a fuel and an oxidant even in complex biological matrices like hydrolysates or physiological fluids into electric energy. The hemoflavoenzyme cellobiose dehydrogenase is investigated as a versatile bioelectrocatalyst for the anode reaction ...
Scheiblbrandner S, Csarman F, Ludwig R.
europepmc +3 more sources
Biofuel Cells Based on Oxidoreductases and Electroactive Nanomaterials: Development and Characterization [PDF]
BiosensorsAmperometric biosensors (ABSs) and enzymatic biofuel cells (BFCs) share several fundamental principles in their functionality, despite serving different primary purposes.
Olha Demkiv +5 more
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Scanning Electrochemical Microscopy of Nystatin-Treated Yeast Used for Biofuel Cells [PDF]
SensorsBiofuel cells (BFCs) generate electricity by converting chemical energy into electrical energy using biological systems. Saccharomyces cerevisiae (yeast) is an attractive biocatalyst for BFCs due to its robustness, low cost, and metabolic versatility ...
Katazyna Blazevic +9 more
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Biomechanical behaviour of PEDOT:PSS-based hydrogels as an electrode for stent integrated enzyme biofuel cells [PDF]
Heliyon, 2022 The possibility of creating a biofuel cell based on a metal stent was shown in this study. Given the existing stent implantation approaches, the integration of a biofuel cell into a stent naturally entails capacity for biofuel cells to be installed into ...
Christina G. Antipova +7 more
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Nanomaterial-Enabled Enhancements in Thylakoid-Based Biofuel Cells [PDF]
NanomaterialsThylakoid-based photosynthetic biofuel cells (TBFCs) harness the inherent light-driven electron transfer pathways of photosynthesis to enable sustainable solar-to-electrical energy conversion.
Amit Sarode, Gymama Slaughter
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Charge Transfer and Biocompatibility Aspects in Conducting Polymer-Based Enzymatic Biosensors and Biofuel Cells [PDF]
Nanomaterials, 2021 Charge transfer (CT) is a very important issue in the design of biosensors and biofuel cells. Some nanomaterials can be applied to facilitate the CT in these bioelectronics-based devices.
Simonas Ramanavicius +1 more
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High-power hybrid biofuel cells using layer-by-layer assembled glucose oxidase-coated metallic cotton fibers [PDF]
Nature Communications, 2018 Biofuel cells offer biocompatibility and operation at mild conditions, but application is limited by relatively low output power. Here the authors use layer-by-layer assembly for glucose oxidase-coated metallic cotton fibers for use as electrodes in a ...
Cheong Hoon Kwon +7 more
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