Overview
Earth and Space Chemistry encompasses the study of chemical processes and materials relevant to terrestrial and extraterrestrial environments, including the composition, transformation, and remediation of substances found on Earth and in space. Research published in the Journal of New Developments in Chemistry addressing this topic has focused on environmental chemistry applications, particularly the removal of organic pollutants from aqueous systems. One investigation examined perovskite-type oxides with varying barium and strontium compositions for their capacity to remove methyl violet dye from water, demonstrating how materials chemistry can address contamination challenges in Earth's hydrosphere. This work on A-site doped perovskites represents an intersection of solid-state chemistry and environmental remediation, exploring how crystal structure modifications influence adsorption properties. The topic matters because understanding chemical interactions in natural and contaminated systems is essential for developing effective pollution control strategies and maintaining water quality. By investigating novel materials for removing synthetic dyes and other contaminants, research in this area contributes to practical solutions for environmental protection while advancing fundamental knowledge of how inorganic oxides interact with organic molecules in aqueous environments.
Research published in this journal
2 peer-reviewed articles, ranked by relevance. Each links to its DOI.
Removal of Methyl Violet from Aqueous Solutions Using the A Site Doped Perovskite +-Oxides BaxSr3-xNbO5.5 (x=0, 1 and 2)
How this research is being cited
The 2 articles above have been cited 3 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.
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2024 · Elsevier eBooks
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M. P. Spaolonzi et al. · 2022 · Environmental science and pollution research international
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Meng-Han Yu et al. · 2021 · Chemosphere
A sample of recent works citing this journal's research on Earth and Space Chemistry, linking to each citing work.