Reprint

Green Synthesis of Nanomaterials

Edited by
November 2019
224 pages
  • ISBN978-3-03921-786-1 (Paperback)
  • ISBN978-3-03921-787-8 (PDF)

This is a Reprint of the Special Issue Green Synthesis of Nanomaterials that was published in

Chemistry & Materials Science
Engineering
Summary

Nanomaterials possess astonishing physical and chemical properties. They play a key role in the development of novel and effective drugs, catalysts, sensors, and pesticides, to cite just a few examples. Notably, the synthesis of nanomaterials is usually achieved with chemical and physical methods needing the use of extremely toxic chemicals or high-energy inputs. To move towards more eco-friendly processes, researchers have recently focused on so-called “green synthesis”, where microbial, animal-, and plant-borne compounds can be used as cheap reducing and stabilizing agents to fabricate nanomaterials. Green synthesis routes are cheap, environmentally sustainable, and can lead to the fabrication of nano-objects with controlled sizes and shapes—two key features determining their bioactivity. 

However, real-world applications of green-fabricated nanomaterials are largely unexplored. Besides, what do we really know about their non-target toxicity? Which are their main modes of action? What is their possible fate in the environment? In this framework, the present Special Issue will include articles by expert authorities on nanomaterials synthesis and applications. Special emphasis will be placed on their impact on the environment and long-term toxicity.

Format
  • Paperback
License and Copyright
© 2020 by the authors; CC BY license
Keywords
solvothermal synthesis; CuInS2; TEM; nanomaterials (NMs); nanostructured; synthetic amorphous silica (SAS); ultrasonic dispersing (USD); energy density; sample preparation; in vitro testing; green synthesis; cacao; non-cytotoxic; Scadoxus multiflorus; leaf; ZnO NPs; larvicidal; ovicidal; anti-fungal; mesoporous materials; carbon spheres; hollow carbon spheres; solid carbon spheres; CVD process; time dependence; titanium dioxide nanoparticles; green synthesis; gum kondagogu; methylene blue; photocatalysis; polyol-assisted fluoride ions slow-release strategy; NaYF4 mesocrystals; crystallographic phase control; chitosan; poly-L-lactic acid; plasma; silver nanoparticles; antimicrobial; hybrid nanoflowers; lipase; magnetic nanomaterials; biocatalysis; enzyme immobilization; palladium nanoparticles; microwave injured cells; microwave energy; Escherichia coli; Desulfovibrio desulfuricans; graphene oxide; reduced graphene oxide; X-ray photoelectron spectroscopy; Raman spectroscopy; electrical conductivity; functionalization; self-assembly; sponges; ionic nanocomplexes; polyarginine; hyaluronic acid; cell proliferation; n/a; agricultural pests; dengue; filariasis; insecticides; larvicides; mosquito control; stored product insects

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