LEADER 03888nam  2201081z- 450 
001 9910367745303321
005 20231214133431.0
010   $a3-03921-787-9
035   $a(CKB)4100000010106264
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/48895
035   $a(EXLCZ)994100000010106264
100   $a20202102d2019      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aGreen Synthesis of Nanomaterials
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
215   $a1 electronic resource (224 p.)
311   $a3-03921-786-0 
330   $aNanomaterials 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.
610   $aanti-fungal
610   $achitosan
610   $agraphene oxide
610   $aenergy density
610   $asponges
610   $aEscherichia coli
610   $afilariasis
610   $atitanium dioxide nanoparticles
610   $asynthetic amorphous silica (SAS)
610   $agreen synthesis
610   $aionic nanocomplexes
610   $amethylene blue
610   $acacao
610   $amesoporous materials
610   $apolyol-assisted fluoride ions slow-release strategy
610   $astored product insects
610   $apolyarginine
610   $asolvothermal synthesis
610   $aagricultural pests
610   $atime dependence
610   $amagnetic nanomaterials
610   $ain vitro testing
610   $apoly-L-lactic acid
610   $aRaman spectroscopy
610   $asample preparation
610   $aself-assembly
610   $asolid carbon spheres
610   $acrystallographic phase control
610   $amicrowave injured cells
610   $aCuInS2
610   $aantimicrobial
610   $aZnO NPs
610   $aScadoxus multiflorus
610   $alipase
610   $amosquito control
610   $abiocatalysis
610   $ahyaluronic acid
610   $ahybrid nanoflowers
610   $aDesulfovibrio desulfuricans
610   $areduced graphene oxide
610   $aovicidal
610   $aenzyme immobilization
610   $apalladium nanoparticles
610   $anon-cytotoxic
610   $aphotocatalysis
610   $ainsecticides
610   $aultrasonic dispersing (USD)
610   $aX-ray photoelectron spectroscopy
610   $acell proliferation
610   $aCVD process
610   $aNaYF4 mesocrystals
610   $amicrowave energy
610   $aleaf
610   $adengue
610   $ahollow carbon spheres
610   $agum kondagogu
610   $afunctionalization
610   $asilver nanoparticles
610   $alarvicidal
610   $ananostructured
610   $aplasma
610   $aelectrical conductivity
610   $alarvicides
610   $aTEM
610   $ananomaterials (NMs)
610   $acarbon spheres
700   $aBenelli$b Giovanni$4auth$01304419
906   $aBOOK
912   $a9910367745303321
996   $aGreen Synthesis of Nanomaterials$93027386
997   $aUNINA