Résumé
In this article, low-cost carbon-based nanoporous materials were synthesized and impregnated in order to offer a sufficient protection for a wide range of toxic chemicals. The microstructure analysis of the samples reveals that the activation promotes the formation of a higher number of small pores and the development of a spongy texture of the sorbents leading thus to an increase in carbon content. The activated samples have apparent micro-mesoporosity confirmed by the corresponding isotherms of low-temperature adsorption of nitrogen. Furthermore, it has been shown that the activation procedure leads to samples with different acidity and this surface property has a marked influence on the performance of the materials. The results of a breakthrough time study for vapors of inorganic and organic substances indicate that the impregnations with Cu and Co are the most suitable for obtaining a universal sorbent. In this regard, an activated carbon impregnated with cobalt that can outperform commercial reference materials intended for this specific application has been developed in this work.
langue originale | Anglais |
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Pages (de - à) | 2521-2526 |
Nombre de pages | 6 |
journal | Materials Today: Proceedings |
Volume | 49 |
Les DOIs | |
état | Publié - 2021 |
Evénement | 8th International Conference on Nanomaterials and Advanced Energy Storage Systems, INESS 2020 - Uttar Pradesh, Inde Durée: 6 août 2020 → 6 août 2020 |