Effect of Cobalt-Platinum Nanoalloy Combination with Non-Metallic Catalyst Fe-N-C on Anti-Poisoning Performance of Hydrogen Fuel Cell Catalyst

Yue Feng

2024

Abstract

Due to the growing global demand for sustainable energy sources, the advent of hydrogen energy reduces dependence on fossil fuels. Hydrogen possesses a high calorific value and emits non-polluting substances in comparison to traditional fossil fuels. As a result, hydrogen energy exhibits significant potential for development. Hydrogen fuel cells are a major technology for the realization of multi-directional hydrogen energy applications. Changes in catalyst activity during battery use will affect battery life. Catalyst poisoning is a major difficulty affecting battery life. Combining cobalt-platinum nanoprecious metals with non-metallic catalysts Fe-N-C. This paper combined with a number of current research results explores the effect of combining cobalt-platinum nanoprecious metals with non-metallic catalysts Fe-N-C on the catalyst's antitoxicizing effect. The catalyst was investigated for battery performance studies. Cost of catalyst manufacturing is evaluated into battery use. The feasibility of using batteries for manufacturing is analyzed. Under a multi-faceted inspection, combining nanoprecious metals with non-precious metal catalysts plays an important role in the anti-toxicity effect and performance enhancement of batteries. Under conditions of catalyst poisoning, Exploiting the anomalous infrared absorption effect of cobalt-platinum on carbon monoxide, Improved catalyst resistance to toxicity. Significantly extends battery life. For the distribution of metals over spatial locations. The combination of precious metals and catalysts is particularly important. In this paper, we mainly consider metal-nanometal bonding, graphene encapsulation and graphene tessellation. Comparison of graphene mosaicing method for battery performance has a large improvement through the study. The method also reduces the use of precious metal catalysts. In addition, compared with the conventional nickel-cobalt alloy. The advantages of cobalt-platinum nano-alloys are not only reflected in their antitoxicity effect. The performance of the catalyst is further enhanced.

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Paper Citation


in Harvard Style

Feng Y. (2024). Effect of Cobalt-Platinum Nanoalloy Combination with Non-Metallic Catalyst Fe-N-C on Anti-Poisoning Performance of Hydrogen Fuel Cell Catalyst. In Proceedings of the 2nd International Conference on Renewable Energy and Ecosystem - Volume 1: ICREE; ISBN 978-989-758-776-4, SciTePress, pages 140-144. DOI: 10.5220/0013850900004914


in Bibtex Style

@conference{icree24,
author={Yue Feng},
title={Effect of Cobalt-Platinum Nanoalloy Combination with Non-Metallic Catalyst Fe-N-C on Anti-Poisoning Performance of Hydrogen Fuel Cell Catalyst},
booktitle={Proceedings of the 2nd International Conference on Renewable Energy and Ecosystem - Volume 1: ICREE},
year={2024},
pages={140-144},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0013850900004914},
isbn={978-989-758-776-4},
}


in EndNote Style

TY - CONF

JO - Proceedings of the 2nd International Conference on Renewable Energy and Ecosystem - Volume 1: ICREE
TI - Effect of Cobalt-Platinum Nanoalloy Combination with Non-Metallic Catalyst Fe-N-C on Anti-Poisoning Performance of Hydrogen Fuel Cell Catalyst
SN - 978-989-758-776-4
AU - Feng Y.
PY - 2024
SP - 140
EP - 144
DO - 10.5220/0013850900004914
PB - SciTePress