The Ecogeographical Impact of Air Pollution in the Azerbaijan Cities: Possible Plant/Synthetic‐Based Nanomaterial Solutions

Mammadova, Shakar; Rostamnia, Sadegh

doi:10.1155/2022/1934554

Cited by 5 publications

(1 citation statement)

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“…The predominant execution recommends that the special properties of Nanocomposite B contribute to the productive catalytic corruption of natural toxins. This underscores the centrality of fitting nanomaterials for particular natural contaminants [28].…”

Section: Comparison With Related Workmentioning

confidence: 86%

Smart Nanomaterial for Environmental Remediation towards Sustainable Solutions for Water and Soil Pollution

Kumar,

Singh,

Upadhyay

et al. 2024

E3S Web Conf.

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This research explores the transformative potential of nanomaterial developments in tending to water and soil contamination through economical natural remediation procedures. Three unmistakable nanomaterials, Nanoparticle A, Nanocomposite B, and Nanotube C, were synthesized and efficiently assessed for their adequacy in poison expulsion. In adsorption tests, Nanocomposite B showed remarkable lead expulsion capacity, outperforming Nanoparticle A and Nanotube C with values of 30 mg/g. Catalytic debasement tests illustrated Nanocomposite B’s predominant proficiency in corrupting phenol, accomplishing a noteworthy 68%, outflanking Nanotube C and Nanoparticle A. A comprehensive natural compatibility appraisal uncovered decreased ecotoxicity and cytotoxicity files for Nanocomposite B, situating it as a naturally inviting choice for remediation. Comparative investigations with related works exhibit the importance of fitting nanomaterial properties focused on poison expulsion. The promising results emphasize Nanocomposite B’s potential as a maintainable and multifunctional arrangement for water and soil remediation. This investigation contributes profitable insights to the developing field of nanotechnology-enabled natural administration, emphasizing the requirement for the capable sending of nanomaterials to attain long-term environmental and human well-being benefits.

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Section: Comparison With Related Workmentioning

confidence: 86%