The oxygen reduction reaction is one ofthe limiting stepsin microbial fuel cell performance. M-N-C catalysts (M as transition metal) represent the best compromise of optimal cost, electrocatalytic activity and durability. The Fe-based catalysts were shown to be the best compared to Co-, Mn-, Ni-based catalysts. The addition of the second transition metal such as Mn was shown to increase the selectivity of the reaction and reduce peroxide production. The use of different N-C precursors resulted in diverse surface chemistry that directly affects the performance. Generally, surface chemistry plays a critical role in the electrocatalytic activity. Integration of the catalyst in the air-breathing cathode is also discussed with a performance that is enhanced by: i) increased catalyst loading; ii) the addition of graphene to structure.
Santoro, C., Serov, ., Artyushkova, K., Atanassov, P. (2020). Platinum Group Metal-free Oxygen Reduction Electrocatalysts Employed in Neutral Electrolytes for Bio-electrochemical Reactors Applications. CURRENT OPINION IN ELECTROCHEMISTRY, 23, 106-113 [10.1016/j.coelec.2020.06.003].
Platinum Group Metal-free Oxygen Reduction Electrocatalysts Employed in Neutral Electrolytes for Bio-electrochemical Reactors Applications.
Santoro C
Primo
;
2020
Abstract
The oxygen reduction reaction is one ofthe limiting stepsin microbial fuel cell performance. M-N-C catalysts (M as transition metal) represent the best compromise of optimal cost, electrocatalytic activity and durability. The Fe-based catalysts were shown to be the best compared to Co-, Mn-, Ni-based catalysts. The addition of the second transition metal such as Mn was shown to increase the selectivity of the reaction and reduce peroxide production. The use of different N-C precursors resulted in diverse surface chemistry that directly affects the performance. Generally, surface chemistry plays a critical role in the electrocatalytic activity. Integration of the catalyst in the air-breathing cathode is also discussed with a performance that is enhanced by: i) increased catalyst loading; ii) the addition of graphene to structure.
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