(2011). Green synthesis of metal nanoparticles: biodegradable polymers and enzymes in stabilization and surface functionalization. Chemical Science, 2:837-46.Virkutyte, J. and R.S. Varma, Green synthesis of metal nanoparticles: Biodegradable polymers and enzymes in stabilization and surface ...
Green synthesismetallic nanoparticlesmetal oxide nanoparticlesnatural resourcesfood wastewater treatmentwastewater treatmentNanoparticles and nanobiotechnology are new fields that focus on the creation and use of nanometer materials. In green chemistry, nanoscience opens new opportunities in chemical, physical, ...
The problem of obtaining metal nanoparticles considering environmental risks in connection with the use of synthesis products in mixtures of new types of diesel fuel has been studied. An analysis of existing research on these topics was carried out. Based on the data sets obtained using the ...
The green synthesis of nanoparticle morphology characterization can be adapted by different specifications such as pH, temperature, reaction time, and reactant concentration. These parameters have majorly recognized the impact of environmental factors on the synthesis of nanoparticles as well as these eleme...
and tissue engineering. The effective delivery of drugs and tissue engineering through the use of nanotechnology exhibited vital contributions in translational research related to the pharmaceutical products and their applications. Collectively, this review covers the green synthesis of nanoparticles by using...
Green synthesis methodologies based on biological precursors depend on various reaction parameters such as solvent, temperature, pressure, and pH conditions (acidic, basic, or neutral). For the synthesis of metal/metal oxide nanoparticles, plant biodiversity has been broadly considered due to the availa...
The green synthesis of nanoparticles (NPs) using living cells is a promising and novelty tool in bionanotechnology. Chemical and physical methods are used to synthesize NPs; however, biological methods are preferred due to its eco-friendly, clean, safe, cost-effective, easy, and effective sources...
Alternative methods, including green synthetic approaches for the preparation of various types of nanoparticles are important to maintain sustainable development. Extracellular or intracellular extracts of fungi are perfect candidates for the synthesis of metal nanoparticles due to the scalability and cost eff...
Plants represent the maximum explored group of living organisms for the green synthesis of metal nanoparticles and, to date, hundreds of types have been used. The nanotechnology advances have short- to long-term uses like eco-friendly pollution cleanup, effective and nontoxic drug delivery mechanisms...
The aim of this chapter is to describe recent advances of the metal oxides nanoparticles biosynthesis made by plants, algae, fungi, bacteria, and viruses. The first section deals with green and sustainable methods for iron oxide nanoparticle synthesis, including mechanisms and physicochemical characteriz...