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dc.contributor.authorBenelli, Giovanni*
dc.date.accessioned2021-02-11T14:53:46Z
dc.date.available2021-02-11T14:53:46Z
dc.date.issued2019*
dc.date.submitted2019-12-09 16:10:12*
dc.identifier42713*
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/48895
dc.description.abstractNanomaterials 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.*
dc.languageEnglish*
dc.subjectQH301-705.5*
dc.subjectQR1-502*
dc.subjectQ1-390*
dc.subject.classificationthema EDItEUR::P Mathematics and Science::PS Biology, life sciencesen_US
dc.subject.otheranti-fungal*
dc.subject.otherchitosan*
dc.subject.othergraphene oxide*
dc.subject.othern/a*
dc.subject.otherenergy density*
dc.subject.othersponges*
dc.subject.otherEscherichia coli*
dc.subject.otherfilariasis*
dc.subject.othertitanium dioxide nanoparticles*
dc.subject.othersynthetic amorphous silica (SAS)*
dc.subject.othergreen synthesis*
dc.subject.otherionic nanocomplexes*
dc.subject.othermethylene blue*
dc.subject.othercacao*
dc.subject.othermesoporous materials*
dc.subject.otherpolyol-assisted fluoride ions slow-release strategy*
dc.subject.otherstored product insects*
dc.subject.otherpolyarginine*
dc.subject.othersolvothermal synthesis*
dc.subject.otheragricultural pests*
dc.subject.othertime dependence*
dc.subject.othermagnetic nanomaterials*
dc.subject.otherin vitro testing*
dc.subject.otherpoly-L-lactic acid*
dc.subject.otherRaman spectroscopy*
dc.subject.othersample preparation*
dc.subject.otherself-assembly*
dc.subject.othersolid carbon spheres*
dc.subject.othercrystallographic phase control*
dc.subject.othermicrowave injured cells*
dc.subject.otherCuInS2*
dc.subject.otherantimicrobial*
dc.subject.otherZnO NPs*
dc.subject.otherScadoxus multiflorus*
dc.subject.otherlipase*
dc.subject.othermosquito control*
dc.subject.otherbiocatalysis*
dc.subject.otherhyaluronic acid*
dc.subject.otherhybrid nanoflowers*
dc.subject.otherDesulfovibrio desulfuricans*
dc.subject.otherreduced graphene oxide*
dc.subject.otherovicidal*
dc.subject.otherenzyme immobilization*
dc.subject.otherpalladium nanoparticles*
dc.subject.othernon-cytotoxic*
dc.subject.otherphotocatalysis*
dc.subject.otherinsecticides*
dc.subject.otherultrasonic dispersing (USD)*
dc.subject.otherX-ray photoelectron spectroscopy*
dc.subject.othercell proliferation*
dc.subject.otherCVD process*
dc.subject.otherNaYF4 mesocrystals*
dc.subject.othermicrowave energy*
dc.subject.otherleaf*
dc.subject.otherdengue*
dc.subject.otherhollow carbon spheres*
dc.subject.othergum kondagogu*
dc.subject.otherfunctionalization*
dc.subject.othersilver nanoparticles*
dc.subject.otherlarvicidal*
dc.subject.othernanostructured*
dc.subject.otherplasma*
dc.subject.otherelectrical conductivity*
dc.subject.otherlarvicides*
dc.subject.otherTEM*
dc.subject.othernanomaterials (NMs)*
dc.subject.othercarbon spheres*
dc.titleGreen Synthesis of Nanomaterials*
dc.typebook
oapen.identifier.doi10.3390/books978-3-03921-787-8*
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0*
oapen.relation.isbn9783039217861*
oapen.relation.isbn9783039217878*
oapen.pages224*
oapen.edition1st*


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