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Full Description
Agri-Waste and Microbes for Production of Sustainable Nanomaterials assesses the most recent trends used to produce bionanomaterials from agricultural waste and microorganisms. The book covers the green synthesis of various nanomaterials using microorganisms and agricultural waste, including the synthesis and characterization of green nanomaterials, the production of nanomaterials from agri-waste, including metallic, copper, silica, cellulose, nanopolymers and nano/micro plastics, and biological methods such as agricultural and microbial synthesis of metallic/metal oxide, magnetic, silver, copper, nanomaterials and nanonutrients. This is an important reference source for plant scientists, materials scientists and environmental scientists who want to understand this new generation of sustainable nanomaterials.
The synthesis of nanocellulose materials from agri-wastes is an emerging alternative for waste treatment methods, developing new biosensors and antimicrobial agents. Silicon nanoparticles are an additional ingredient for the improvement of crop yields. With recent advances in nanomaterials synthesis performance and the discovery of their biomedical, environmental and agricultural applications, it is hoped that the implementation of these methods will be used at large-scale for industrial applications in different sectors.
Contents
1 Sustainable strategies for producing large-scale nanomaterials: A note from the editors
Part I: Agri-Waste for production of nanomaterials
2 Synthesis of metal nanoparticles by microbes and biocompatible green reagents
3 Plant and agri-waste-mediated synthesis of metal nanoparticles
4 Plant-mediated copper nanoparticles for agri-ecosystem applications
5 Synthesis of silica nanoparticles from agricultural waste
6 Biomolecule-assisted biogenic synthesis of metallic nanoparticles
7 Bacterial and fungal mediated synthesis, characterization and applications of AgNPs
8 Agro-waste materials: Sustainable substrates in nanotechnology
9 Synthesis of eco-friendly graphene from agricultural wastes
10 Fruit peel waste-to-wealth: Bionanomaterials production and their applications in agroecosystems
11 Eggshell and fish/shrimp wastes for synthesis of bio-nanoparticles
12 Vegetables waste for biosynthesis of various nanoparticles
Part II: Microorganisms for nanomaterials synthesis
13 Microbes and agricultural waste: A safe resource for the production of bionanomaterials
14 Microbial synthesis of magnetic nanomaterials
15 Mycogenic nanoparticles: Synthesis, characterizations and applications
16 Actinomycetes-assisted nanoparticles: Synthesis and applications
17 Biosynthesis of Silver Nanoparticles: Synthesis, mechanism, and characterization
18 Agri-food and environmental applications of bionanomaterials produced from agri-waste and microbes
19 Benign fabrication of metallic/metal oxide nanoparticles from algae
20 Biogenic metal sulfide nanoparticles synthesis and applications for biomedical and environmental technology
21 Microbial-mediated copper nanoparticles synthesis, characterization, and applications
22 Green nanomaterials produced by agro-waste and microbes: Mechanisms and risk assessment
23 Frontier and perspective outlook on agrowaste nanoparticles for healthcare and environment
24 Mechanistic approach on the synthesis of metallic nanoparticles from microbes
25 Microbially synthesized nanoparticles: A promising future for insecticidal efficacy studies
26 Biomedical applications of ginsenosides nanoparticles synthesized using microbes
27 Synthesis of selenium nanoparticles by using microorganisms and agri-based products
28 Plant-meditated methods for synthesis of silver nanoparticles
29 Rice wastes for green production and sustainable nanomaterials: An overview
