Journal
ADVANCED ENERGY AND SUSTAINABILITY RESEARCH
Volume 3, Issue 11, Pages -Publisher
WILEY
DOI: 10.1002/aesr.202200107
Keywords
biomass; cellulose nanofibers; electrocatalysts; hydrogen evolution reactions; oxygen evolution reactions; oxygen reduction reactions; vitamin B-12
Categories
Funding
- NEDO [2020-0115004]
- JSPS KAKENHI [18H05482, 19KK0357, 22K19077]
- Advanced Research Infrastructure for Materials and Nanotechnology in Japan (ARIM) of the Ministry of Education, Culture, Sports, Science and Technology (MEXT) [JPMXP1222HK0010]
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As the demand for high-performance electrocatalysts continues to grow, this study presents a possible strategy to fabricate biomass-derived electrocatalysts with excellent electrochemical performance, without the need for rare or harmful metals. This could be a promising approach for high-capacity energy storage devices using biomass resources.
As part of ongoing efforts to realize a low-carbon and hydrogen-based society, there is an increasing demand for high-performance electrocatalysts, which are key materials for fuel cells and water electrolysis systems. Although platinum group metals exhibit high catalytic activity, increasing production costs due to resource constraints, limited countries of production, and geopolitical supply issues are threatening their use. Therefore, it is crucial to make substantial changes in resource utilization for the sustainable production of electrochemical catalysts. Herein, the preparation of trifunctional biomass-derived electrocatalysts for the oxygen reduction reaction and oxygen/hydrogen evolution reactions by the pyrolysis of cellulose nanofibers from ascidian tunicates, dried blood meal, and cyanocobalamin is reported. The combination of N, P, FeN4, and CoN4 structures incorporated in the carbon network leads to high electrochemical performance comparable with rare-metal-based electrocatalysts and other carbon alloy electrocatalysts. This work provides a possible strategy for fabricating high-capacity energy storage devices from biomass resources such as industrial waste without the need for rare metals or other harmful heavy metals.
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