Keywords: تخریب فنل; Graphitic carbon nitride nanosheets; Exfoliation; Hydrogen peroxide; LED; Phenol degradation;
مقالات ISI تخریب فنل (ترجمه نشده)
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Keywords: تخریب فنل; TiO2 layers; Ultrasound; Fluoropolymer-based capillary; Microfluidic photoreactor; Phenol degradation; Water purification;
Keywords: تخریب فنل; Cathodic microarc plasma electrolysis; Phenol degradation; Degradation efficiency; Electron temperature;
Keywords: تخریب فنل; Graphene; Phenol degradation; TiO2 photocatalyst; Response surface methodology; Hydrothermal method;
Keywords: تخریب فنل; Photocatalyst; Water splitting; Twin-reactor; Hydrogen; Phenol degradation;
Keywords: تخریب فنل; Microbial fuel cell; Phenol degradation; Graphite electrodes; Biofilm; Geobacter;
Keywords: تخریب فنل; Mixed bacterial culture; Phenol degradation; Inhibition; Maximum specific growth rate; Dynamic profiles; Ortho-cleavage pathway;
Keywords: تخریب فنل; g-C3N4 nanosheet; Phenol degradation; Polymer; Semiconductor; Photocatalyst;
Keywords: تخریب فنل; Visible photocatalysis; Bi4Ti3O12; Bi20TiO32; Phenol degradation;
Keywords: تخریب فنل; TiO2-CdS-gCNNSs heterojunction photocatalysts; Visible light photocatalysis; Phenol degradation;
Keywords: تخریب فنل; Zinc oxide; Surface area; Photocatalysis; Supported catalysts; Phenol degradation;
Keywords: تخریب فنل; Fe-PILC; Iron content; Maghemite particles; Heterogeneous photo-Fenton; Phenol degradation;
Keywords: تخریب فنل; Phenol degradation; Photocatalytic degradation; Visible light photocatalysts; Alkaline earth metal bismuthate; Bismuth oxide
Keywords: تخریب فنل; Photocatalysts; Titanium dioxide; Nitrogen doping; Carbon doping; Phenol degradation
Keywords: تخریب فنل; g-C3N4; Potassium doping; Photocatalysis; Phenol degradation;
Keywords: تخریب فنل; Phenol degradation; Hydrogen peroxide; Zero-valent iron; Steel wool; Heterogeneous Fenton
Keywords: تخریب فنل; Phenol degradation; Phenothiazines; Singlet oxygen; Photochemical generation; Electropolymerization;
Keywords: تخریب فنل; carbon fiber; 2-electron ORR; H2O2 electrogeneration; electro-Fenton; phenol degradation
Keywords: تخریب فنل; Microbial consortia; Phenol degradation; Enzyme activity; RSM; Optimization
Keywords: تخریب فنل; Graphene@BiPO4; Nanocomposite; Photocatalysis; Phenol degradation;
Keywords: تخریب فنل; Leather skin residues; Photocatalysis; Chromium oxide; Phenol degradation
Keywords: تخریب فنل; Mn oxides; Peroxymonosulfate activation; Advanced oxidation; Phenol degradation;
Keywords: تخریب فنل; Hydrogen peroxide electrogeneration; Tungsten oxide; Phenol degradation;
Synthesis of Cs3PMo12O40/Bi2O3 composite with highly enhanced photocatalytic activity under visible-light irradiation
Keywords: تخریب فنل; Bi2O3; CsPMo; Visible light; Phenol degradation; Polyoxometalate;
Activation of persulfate by CuOx@Co-LDH: A novel heterogeneous system for contaminant degradation with broad pH window and controlled leaching
Keywords: تخریب فنل; PS activation; Phenol degradation; Broad pH window; Diverse free radicals; Scavenging effect;
Green synthesis of a dendritic Fe3O4 @Feo composite modified with polar C-groups for Fenton-like oxidation of phenol
Keywords: تخریب فنل; Green synthesis; Dendritic structure; Polar C-groups; Fenton-like oxidation; Phenol degradation;
3D ordered MoP inverse opals deposited with CdS quantum dots for enhanced visible light photocatalytic activity
Keywords: تخریب فنل; CdS quantum dots; MoP inverse opals; Phenol degradation; Visible-light-driven photocatalyst;
Photocatalytic degradation of phenol over visible light active ZnO/Ag2CO3/Ag2O nanocomposites heterojunction
Keywords: تخریب فنل; Photocatalysis; Phenol degradation; ZnO; ZnO/Ag2CO3/Ag2O; Nanocomposite;
Effective degradation of phenol via Fenton reaction over CuNiFe layered double hydroxides
Keywords: تخریب فنل; Phenol degradation; Fenton reaction; CuNiFe layered double hydroxides; Electron transfer; Synergetic effect;
Ce, Ti modified MCM-48 mesoporous photocatalysts: Effect of the synthesis route on support and metal ion properties
Keywords: تخریب فنل; TiSiMCM-48; CeTiSiMCM-48; Impregnation; Photocatalysis; Phenol degradation;
Enhanced anaerobic phenol degradation by conductive materials via EPS and microbial community alteration
Keywords: تخریب فنل; Phenol degradation; Extracellular polymeric substances (EPS); Electron shuttles; Humic substance (HS); Extracellular electron transfer (EET); Microbial community;
Fe3S4/Fe7S8-promoted degradation of phenol via heterogeneous, catalytic H2O2 scission mediated by S-modified surface Fe2+ species
Keywords: تخریب فنل; FeS2Fe3S4Fe7S8H2O2 dissociation; Phenol degradation; Fenton reaction;
Anodic oxidation-assisted O2 oxidation of phenol catalyzed by Fe3O4 at low voltage
Keywords: تخریب فنل; Anodic oxidation-assisted O2 oxidation; Phenol degradation; Fe3O4; Low voltage; Electron transfer;
Micro-oxygen bioanode: An efficient strategy for enhancement of phenol degradation and current generation in mix-cultured MFCs
Keywords: تخریب فنل; Micro-oxygen bioanode MFC(RMO); Phenol degradation; Current production; Microbial community; Mechanism;
Optimized CWPO phenol oxidation in CSTR reactor catalyzed by Al/Fe-PILC from concentrated precursors at circumneutral pH
Keywords: تخریب فنل; CSTR reactor; Al/Fe-PILC catalyst; Heterogeneous fenton; Phenol degradation; Response surface methodology;
Phenol degradation in a packed bed reactor by immobilized cells of Pseudomonas aeruginosa MTCC 4997
Keywords: تخریب فنل; Immobilization; Packed bed reactor; Phenol degradation; Pseudomonas aeruginosa MTCC 4997;
Improving the visible-light photocatalytic activity of interstitial carbon-doped TiO2 with electron-withdrawing bidentate carboxylate ligands
Keywords: تخریب فنل; Carbon-doped TiO2; Electron-withdrawing; Bidentate carboxylate; Photocatalysis; Phenol degradation;
Improved visible-light photocatalytic activity in ZnTiO3 nanopowder prepared by sol-electrospinning
Keywords: تخریب فنل; Hexagonal ZnTiO3; Sol-electropinning technique; Nanopowders; Phenol degradation; Visible light Photocatalysis;
Hollow zeolite-encapsulated Fe-Cu bimetallic catalysts for phenol degradation
Keywords: تخریب فنل; Hollow zeolite; Phenol degradation; Fe-Cu bimetal; Encapsulate;
Fabrication of 3D Bi2O3-BiOI heterojunction by a simple dipping method: Highly enhanced visible-light photoelectrocatalytic activity
Keywords: تخریب فنل; Photoelectrocatalytic; 3D Bi2O3-BiOI; Visible light; Water oxidation; Phenol degradation;
Preparation and photocatalytic activity of Nd-modified TiO2 photocatalysts: Insight into the excitation mechanism under visible light
Keywords: تخریب فنل; Heterogeneous photocatalysis; TiO2; Modified-TiO2; Rare earth metal; Neodymium; Visible light photoactivity; Phenol degradation; Action spectra analysis;
Electro-oxidation of phenol over electrodeposited MnOx nanostructures and the role of a TiO2 nanotubes interlayer
Keywords: تخریب فنل; MnOx; manganese oxides; Ti; titanium; TiO2-NTs; titania nanotubes; CV; cyclic voltammetries; LSV; linear sweep voltammetries; RHE; reversible hydrogen electrode; Manganese oxides; Electrodeposition; TiO2 nanotubes; Phenol degradation; Electro-oxidation;
Shape-controlled Co3O4 catalysts for advanced oxidation of phenolic contaminants in aqueous solutions
Keywords: تخریب فنل; Shape control; Co3O4; Phenol degradation; Peroxymonosulfate;
ZnO/ZnGaNO heterostructure with enhanced photocatalytic properties prepared from a LDH precursor using a coprecipitation method
Keywords: تخریب فنل; Layered double hydroxides; Visible light; ZnGaNO; GaN:ZnO; Photocatalyst; Phenol degradation;
Natural magnetic pyrrhotite as a high-Efficient persulfate activator for micropollutants degradation: Radicals identification and toxicity evaluation
Keywords: تخریب فنل; NP; Natural pyrrhotite; PS; Sodium persulfate; EPR; Electron paramagnetic resonance; ROS; Reactive oxygen species; AOPs; advanced oxidation processes; TBA; tert-butanol alcohol; TOC; Total organic carbon; SW; Surface water; WW; Wastewater; Sulfate radical
Simultaneous removal of Cr(VI) and phenol contaminants using Z-scheme bismuth oxyiodide/reduced graphene oxide/bismuth sulfide system under visible-light irradiation
Keywords: تخریب فنل; Cr(VI) reduction; Phenol degradation; Z-scheme photocatalytic system; Visible-light photocatalysis; BiOI/rGO/Bi2S3;
Biodegradation of phenol via meta cleavage pathway triggers de novo TAG biosynthesis pathway in oleaginous yeast
Keywords: تخریب فنل; Phenol degradation; Oleaginous yeast; Lipid accumulation; Fatty acid methyl esters;
The ILs-assisted electrochemical synthesis of TiO2 nanotubes: The effect of ionic liquids on morphology and photoactivity
Keywords: تخریب فنل; TiO2 nanotubes; Ionic liquid; Electrochemical method; Phenol degradation; Visible light photoactivity; Nitrogen and boron doping;
Pd-doped Bi2MoO6 plasmonic photocatalysts with enhanced visible light photocatalytic performance
Keywords: تخریب فنل; Photocatalysis; Bi2MoO6; Phenol degradation; Surface plasmon resonance; Pd/PdCl2;
Short communicationSilica induced oxygen vacancies in supported mixed-phase TiO2 for photocatalytic degradation of phenol under visible light irradiation
Keywords: تخریب فنل; Silica nanosheets; Oxygen vacancies; Supported TiO2; Phenol degradation; Visible light;