An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells
An air cathode (AC) is one of the main components in an AC-based biofuel cell (BFC). Its cost accounts for nearly half of the total cost of the cell as specific requirements must be met for it to perform as an effective site for the oxygen (O2) reduction reaction (ORR) to occur. In most applications...
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my.iium.irep.1135562024-10-24T07:55:14Z http://irep.iium.edu.my/113556/ An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells Wan Mohd Sukri, Wan Nur Asiah Othman, Raihan Sarifuddin, Norshahida TJ807 Renewable energy sources TK2896 Production of electricity by direct energy conversion TP248.13 Biotechnology An air cathode (AC) is one of the main components in an AC-based biofuel cell (BFC). Its cost accounts for nearly half of the total cost of the cell as specific requirements must be met for it to perform as an effective site for the oxygen (O2) reduction reaction (ORR) to occur. In most applications where the AC is totally submerged in the electrolyte, air or O2 is bubbled throughout the electrolyte during the entire discharge operation to enhance the cell performance. This is because the dissolved O2 (DO) concentration is merely one-third of the O2 concentration in ambient air. Unfortunately, this approach increases the overall complexity and cost of the system. Therefore, this present study developed an effective, easy-to-fabricate AC for use under totally submerged and unaerated conditions. The design principle of the proposed AC is a balance between the hydrophobicity and hydrophilicity of the components used, i.e., the combination of a carbon felt, an interwoven carbon fiber sheet, and a nickel mesh. All the cathode components were snugly fitted merely using the mechanical pressure of the cylindrical BFC holders. The fabricated AC was assembled in a zinc-air BFC employing fungal microbes Phanerochaete chrysosporium (P. chrysosporium). When tested at a constant current of 1.0 mA under unaerated, uncontrolled ambition conditions, the zinc-air BFC discharge lasted 42 days with an average operating voltage of 200 mV. Under these conditions and even without the inclusion of any catalytic material, the cell performance met the operating requirements of the low-powered remote sensing devices. Therefore, the proposed easy-to-fabricate submerged air electrode has demonstrated its viability for use in BFCs. IIUM Press 2024-07-14 Article PeerReviewed application/pdf en http://irep.iium.edu.my/113556/7/113556_An%20easy-to-fabricate%2C%20submerged.pdf application/pdf en http://irep.iium.edu.my/113556/13/113577_%20AN%20EASY-TO-FABRICATE%2C%20SUBMERGED%20CARBON-BASED%20AIR%20CATHODE%20FOR%20BIOFUEL%20CELLS_SCOPUS.pdf Wan Mohd Sukri, Wan Nur Asiah and Othman, Raihan and Sarifuddin, Norshahida (2024) An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells. IIUM Engineering Journal, 25 (2). pp. 46-56. ISSN 1511-758X E-ISSN 2289-7860 https://journals.iium.edu.my/ejournal/index.php/iiumej https://doi.org/10.31436/iiumej.v25i2.2974 |
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TJ807 Renewable energy sources TK2896 Production of electricity by direct energy conversion TP248.13 Biotechnology Wan Mohd Sukri, Wan Nur Asiah Othman, Raihan Sarifuddin, Norshahida An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells |
| description |
An air cathode (AC) is one of the main components in an AC-based biofuel cell (BFC). Its cost accounts for nearly half of the total cost of the cell as specific requirements must be met for it to perform as an effective site for the oxygen (O2) reduction reaction (ORR) to occur. In most applications where the AC is totally submerged in the electrolyte, air or O2 is bubbled throughout the electrolyte during the entire discharge operation to enhance the cell performance. This is because the dissolved O2 (DO) concentration is merely one-third of the O2 concentration in ambient air. Unfortunately, this approach increases the overall complexity and cost of the system. Therefore, this present study developed an effective, easy-to-fabricate AC for use under totally submerged and unaerated conditions. The design principle of the proposed AC is a balance between the hydrophobicity and hydrophilicity of the components used, i.e., the combination of a carbon felt, an interwoven carbon fiber sheet, and a nickel mesh. All the cathode components were snugly fitted merely using the mechanical pressure of the cylindrical BFC holders. The fabricated AC was assembled in a zinc-air BFC employing fungal microbes Phanerochaete chrysosporium (P. chrysosporium). When tested at a constant current of 1.0 mA under unaerated, uncontrolled ambition conditions, the zinc-air BFC discharge lasted 42 days with an average operating voltage of 200 mV. Under these conditions and even without the inclusion of any catalytic material, the cell performance met the operating requirements of the low-powered remote sensing devices. Therefore, the proposed easy-to-fabricate submerged air electrode has demonstrated its viability for use in BFCs. |
| format |
Article |
| author |
Wan Mohd Sukri, Wan Nur Asiah Othman, Raihan Sarifuddin, Norshahida |
| author_facet |
Wan Mohd Sukri, Wan Nur Asiah Othman, Raihan Sarifuddin, Norshahida |
| author_sort |
Wan Mohd Sukri, Wan Nur Asiah |
| title |
An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells |
| title_short |
An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells |
| title_full |
An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells |
| title_fullStr |
An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells |
| title_full_unstemmed |
An easy-to-fabricate, submerged Carbon-based air cathode for biofuel cells |
| title_sort |
easy-to-fabricate, submerged carbon-based air cathode for biofuel cells |
| publisher |
IIUM Press |
| publishDate |
2024 |
| url |
http://irep.iium.edu.my/113556/7/113556_An%20easy-to-fabricate%2C%20submerged.pdf http://irep.iium.edu.my/113556/13/113577_%20AN%20EASY-TO-FABRICATE%2C%20SUBMERGED%20CARBON-BASED%20AIR%20CATHODE%20FOR%20BIOFUEL%20CELLS_SCOPUS.pdf http://irep.iium.edu.my/113556/ https://journals.iium.edu.my/ejournal/index.php/iiumej https://doi.org/10.31436/iiumej.v25i2.2974 |
| _version_ |
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