The Direct Borohydride Fuel Cell
The Direct Borohydride Fuel Cell
Fuel cells are clean power sources for both large-scale and portable applications, as they provide a viable method for converting the chemical energy of fuel directly into electrical energy. The most developed FC is the H2‖O2 system, which uses hydrogen as fuel. However, there are some issues with the use of hydrogen, such as sourcing, safety of handling, and storage. Direct borohydride fuel cells address some of these concerns. They consist of both
fuel, which is oxidized at the anode, and hydrogen peroxide (or O2), which is reduced at the cathode. Their many advantages, such as high theoretical specific energy (up to 17 kWh kg−1) and high theoretical cell voltage (up to 3.02 V), have attracted increasing interest. Borohydride is also available in solid state (NaBH4) or as an aqueous electrolyte up to 30 wt%, where it remains with a half-life of around 270 days at pH 13.9 (25 °C) in a strong alkaline solution. Borohydride FCs can operate under ambient conditions and in an air-free environment, which makes them convenient for portable and anaerobic applications. The main challenge to their commercialization is the selectivity of the anode catalysts and their substrate materials. Many publications have investigated noble metals (e.g. platinum, gold, palladium) as candidate materials, but none have found yet an anode catalyst able to meet the needs of both high catalytic activity toward
oxidation and low activity toward its hydrolysis. Several improving strategies are being investigated.
Arenas, Luis F.
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Abahussain, Abdulaziz Abdulkarim M
99f1aa90-8d2d-46d6-8979-b2606a618e26
Ponce De Leon Albarran, Carlos
508a312e-75ff-4bcb-9151-dacc424d755c
17 December 2021
Arenas, Luis F.
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Abahussain, Abdulaziz Abdulkarim M
99f1aa90-8d2d-46d6-8979-b2606a618e26
Ponce De Leon Albarran, Carlos
508a312e-75ff-4bcb-9151-dacc424d755c
Arenas, Luis F., Abahussain, Abdulaziz Abdulkarim M and Ponce De Leon Albarran, Carlos
(2021)
The Direct Borohydride Fuel Cell.
In,
Encyclopedia of Electrochemistry.
Wiley.
(doi:10.1002/9783527610426.bard120081).
Record type:
Book Section
Abstract
Fuel cells are clean power sources for both large-scale and portable applications, as they provide a viable method for converting the chemical energy of fuel directly into electrical energy. The most developed FC is the H2‖O2 system, which uses hydrogen as fuel. However, there are some issues with the use of hydrogen, such as sourcing, safety of handling, and storage. Direct borohydride fuel cells address some of these concerns. They consist of both
fuel, which is oxidized at the anode, and hydrogen peroxide (or O2), which is reduced at the cathode. Their many advantages, such as high theoretical specific energy (up to 17 kWh kg−1) and high theoretical cell voltage (up to 3.02 V), have attracted increasing interest. Borohydride is also available in solid state (NaBH4) or as an aqueous electrolyte up to 30 wt%, where it remains with a half-life of around 270 days at pH 13.9 (25 °C) in a strong alkaline solution. Borohydride FCs can operate under ambient conditions and in an air-free environment, which makes them convenient for portable and anaerobic applications. The main challenge to their commercialization is the selectivity of the anode catalysts and their substrate materials. Many publications have investigated noble metals (e.g. platinum, gold, palladium) as candidate materials, but none have found yet an anode catalyst able to meet the needs of both high catalytic activity toward
oxidation and low activity toward its hydrolysis. Several improving strategies are being investigated.
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Published date: 17 December 2021
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Local EPrints ID: 501293
URI: http://eprints.soton.ac.uk/id/eprint/501293
PURE UUID: e1833462-372d-467c-8234-807e6a4584a3
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Date deposited: 28 May 2025 16:52
Last modified: 29 May 2025 01:57
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Author:
Abdulaziz Abdulkarim M Abahussain
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