@inbook{548cbaab4c1f4452bc4343a9d9c21430,
title = "New nanomaterials for wastewater depollution: Methods using chemometric approaches",
abstract = "Access to safe and clean water is one of the most pressing issues that humanity and the rest of the globe will be confronted with over the next 50 years. Traditional wastewater treatment and water depollution techniques frequently rely on univariate approaches in experimental design and synthesis, and the analyses of the results of the materials or strategies used in the water depollution process. We will examine the current state of the literature centered on new and emerging nanomaterials used for water pollution applications. Additionally, we have focused on chemometric investigations that generate a multimodal approach to the design and usage of nanomaterials for water cleanup, which is the first type of review of this kind for nanomaterials in water remediation.",
keywords = "Chemometrics, Depollution, Nanomaterials, Wastewater, Water treatment",
author = "Dang, {Yen T.H.} and Sheeana Gangadoo and Truong, {Vi Khanh} and Daniel Cozzolino and James Chapman",
year = "2022",
doi = "10.1016/B978-0-323-90763-7.00013-5",
language = "English",
isbn = "978-0-323-90763-7",
series = "Separation Science and Technology (New York)",
publisher = "Elsevier Inc.",
pages = "287--298",
editor = "Satindar Ahuja",
booktitle = "Separation Science and Technology",
address = "United States",
}