Author:
R.P. Oliveira Jessica,G. Lenzi Giane
Abstract
The bibliometric analysis by Methodi Ordinatio reveals the impressive increase in the published articles about green chemistry, and specificity in green synthesis of nanomaterials. In the last decade, they have published over 450 articles, most led by India, China, and Iran. The green synthesis is according to the 12 principles of green chemistry (PGCs) to obtain nanoparticles with minimization of waste and toxic emissions, use of green solvents and alternatives to conventional organic solvents, use of renewable and sustainable raw materials, and energy efficiency and use of renewable energy. After synthesis, the green nanoparticles are characterized to know their physical and chemical properties. Green synthesis can contribute to the sustainable development goals (SDGs) until nine goals can be associated with green synthesis and green nanoparticle applications. Among advantages and limitations, the green syntheses of nanoparticles have the potential to grow more by future perspectives gap.
Reference107 articles.
1. Pagani RN, Pedroso B, dos Santos CB, Picinin CT, Kovaleski JL. Methodi Ordinatio 2.0: Revisited under statistical estimation, and presenting finder and rank in. Quality and Quantity. 2022;:4563-4602. DOI: 10.1007/s11135-022-01562-y
2. ACS Chemistry for life, 12 Principles of Green Chemistry. [Internet]. Available from: .html [Accessed: July 8, 2023]
3. United Nations Development Programme, THE SDGS IN ACTION [Internet]. 2015. Available from: [Accessed: July 12, 2023]
4. Singh J, Kaur H, Rawat M. A novel green approach for the synthesis of tungsten oxide nanorods and its efficient potential towards photocatalytic degradation of reactive green 19 dye. Journal of Materials Science: Materials in Electronics. 2018;:13715-13722. DOI: 10.1007/s10854-018-9501-6
5. Compound interest, the twelve principles of green chemistry: What it is, & Why it Matters. 2015. [Internet]. [Accessed: July 10, 2023]
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