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MSE PRO 0.5-2um Fe-N-C Single Atom Catalyst (SAC), 2g– MSE Supplies LLC

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MSE PRO 0.5-2um Fe-N-C Single Atom Catalyst (SAC), 2g

SKU: PO9601

  • $ 32395
  • Save $ 3603



MSE PRO0.5-2um Fe-N-C Single Atom Catalyst (SAC), 2g

MSE PRO™ Fe-N-C Single Atom Catalyst (SAC) contains a single atom loaded onto the carrier surface, connected through heteroatom bonding. This catalytic process is highly effective due to the unique placement of the single atom. Loaded with carbon-based transition metal atoms, this SAC achieves an almost 100% atomic utilization rate and excels in electrochemical energy storage and conversion tasks, including oxygen reduction, oxygen evolution, hydrogen evolution, and CO2 reduction reactions. Due to its carbon material carrier and graphite skeleton, the catalyst not only provides anchoring sites for metal atoms but also alters their charge density and electronic structure through strong interfacial interactions with adjacent carbon atoms, resulting in optimal efficiency.

MSE Supplies offers a variety of atomic catalyst, include Co, Fe, and FeCo contented products as well as other regular catalyst such as Copper catalyst. Please contact us for more information.

Specifications:

SKU# PO9601
Product Name Fe-N-C SAC
Package 2g/bottle
Diameter 0.5-2μm (TEM)
Appearance Black powder
C Content 65-75wt.% (XPS)
N Content 10-20wt.% (XPS)
Fe Content 4-6wt.% (XPS)
Application Fields Catalytic oxidation, catalytic reduction, nano enzymes, etc.

Note: This content data is a singular measurement and may vary between batches.

Reference:

[1] Luo, X., Wei, X., Wang, H. et al. Secondary-Atom-Doping Enables Robust Fe–N–C Single-Atom Catalysts with Enhanced Oxygen Reduction Reaction. Nano-Micro Lett. 12, 163 (2020). https://doi.org/10.1007/s40820-020-00502-5

[2] Cao, S., Zhou, S., Chen, H., Wei, S., Liu, S., Lin, X., Chen, X., Wang, Z., Guo, W. and Lu, X. (2023), How can the Dual-atom Catalyst FeCo–NC Surpass Single-atom Catalysts Fe–NC/Co–NC in CO2RR? – CO Intermediate Assisted Promotion via a Synergistic Effect. Energy Environ. Mater., 6: e12287