about
Nano-adsorbents for the removal of metallic pollutants from water and wastewater.Influence of relaxation modes on membrane fouling in submerged membrane bioreactor for domestic wastewater treatment.The pH sensitive properties of carboxymethyl chitosan nanoparticles cross-linked with calcium ions.Kinetic and thermodynamic studies of the Co(II) and Ni(II) ions removal from aqueous solutions by Ca-Mg phosphates.Removal of cationic and anionic heavy metals from water by 1D and 2D-carbon structures decorated with magnetic nanoparticlesSynthesis of malachite@clay nanocomposite for rapid scavenging of cationic and anionic dyes from synthetic wastewater.Separation and removal of Cu2+, Fe2+, and Fe3+ from environmental waste samples by N-benzoyl-n-phenylhydroxylamine.Green thermal-assisted synthesis and characterization of novel cellulose-Mg(OH)2 nanocomposite in PEG/NaOH solvent.Carboxymethyl Chitosan and Its Hydrophobically Modified Derivative as pH-Switchable Emulsifiers.Pretreatment assisted synthesis and characterization of cellulose nanocrystals and cellulose nanofibers from absorbent cotton.Chemically immobilized and physically adsorbed PAN/acetylacetone modified mesoporous silica for the recovery of rare earth elements from the waste water-comparative and optimization study.Dry and wet ozonation of denim: Degradation products, reaction mechanism, toxicity and cytotoxicity assessment.Removal of Cd, Ni and PO from aqueous solution by hydroxyapatite-bentonite clay-nanocellulose compositeUnderstanding the factors affecting the adsorption of Lanthanum using different adsorbents: A critical reviewFabrication of novel metal ion imprinted xanthan gum-layered double hydroxide nanocomposite for adsorption of rare earth elementsApplication of zinc-aluminium layered double hydroxides for adsorptive removal of phosphate and sulfate: Equilibrium, kinetic and thermodynamicNanochitin/manganese oxide-biodegradable hybrid sorbent for heavy metal ions
P50
Q37551803-52BFF8CA-F8D7-4D7B-A61B-DAA3B76EBC02Q38371360-E0B388B0-54D4-4196-AA5A-A6903D59355CQ38930619-7A0B6287-7961-407F-903B-1B39B471AF13Q39050372-8414A73E-3490-46B2-AA07-7E082743834CQ42621199-7FD2BC1F-CA09-44E0-8B05-683178328910Q43359109-606013B6-87E3-4670-A81A-A76119CCA1FDQ46820183-D54C5BF3-5C9E-403F-AC1F-EFE7DA975D2AQ47657985-32934664-3140-49F4-B215-53A49AF40F8BQ50181785-4509357E-07B6-42BF-AD85-A0102BDC555AQ50204760-F36CC874-4C8A-40CA-8BC0-30E38DCC5F50Q50206705-583B5D43-D3DE-49FD-B72E-D2B21F43503BQ53693380-E9DD455D-706D-41D6-BA54-C421428C47E7Q57463431-F99C6B9C-D014-446A-8DDB-AC0338A18A97Q88423468-4F45CAE8-7F1E-4381-BAE0-2122BEB275ADQ88865786-F809E862-C1E0-4C1E-80AD-27EA9B46B548Q89236636-27E02266-8875-47EC-ADB1-6E613BD14727Q91406629-776D30B7-62F0-4619-B2D3-3245CF8CB990
P50
description
investigador
@es
researcher
@en
name
V Srivastava
@en
type
label
V Srivastava
@en
prefLabel
V Srivastava
@en
P31
P496
0000-0003-2275-9168