| 1 benzyl 3 (4 bromobenzoyl) 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 1 methyl 3 (2 methylbenzoyl) 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 1 methyl 3 (4 methylbenzoyl) 4 phenyl 3,4 dihydro 1,8 naphthyridin 2(1h) one [1] |
| 1 methyl 3 (4 methylbenzoyl) 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 1 methyl 4 phenyl 3 (thiophene 2 carbonyl) 3,4 dihydroquinolin 2(1h) one [1] |
| 1 methyl 4 phenyl 3 [4 (trifluoromethyl)benzoyl] 3,4 dihydroquinolin 2(1h) one [1] |
| 1,2,3-Triazoles [1] |
| 1,3,5-triazine [1] |
| 1,3-dipolar cycloaddition [1] |
| 1-Acetyl ?-carboline [1] |
| 1-allyl-3-methylimidazolium chloride [1] |
| 1-butyl-3-methylimidazolium [1] |
| 1D nanostructures [1] |
| 2 [3 (4 bromobenzoyl) 2 oxo 4 phenyl 3,4 dihydroquinolin 1(2h) yl]ethyl 2 (6 methoxynaphthalen 2 yl)propanoate [1] |
| 2 [3 (4 methylbenzoyl) 2 oxo 4 phenyl 3,4 dihydroquinolin 1(2h) yl]ethyl 2 (6 methoxynaphthalen 2 yl)propanoate [1] |
| 2-Acylbenzothiophene [1] |
| 2-Amino arylcarbaldehydes [1] |
| 2-Aminopyridine [1] |
| 2-Aminoquinolines [1] |
| 2-azidobenzothiazoles [1] |
| 3 (4 bromobenzoyl) 1 ethyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 (4 bromobenzoyl) 1 methyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 (4 bromobenzoyl) 6 fluoro 4 (2 methoxyphenyl) 1 methyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 (4 bromobenzoyl) 6 methoxy 1 methyl 4 (4 tolyl) 3,4 dihydroquinolin 2(1h) one [1] |
| 3 (4 methoxybenzoyl) 1 methyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 acetyl 1 methyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 1 ethyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 1 methyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 1,5,7 trimethyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 4 (4 bromo 2 fluorophenyl) 1,5,7 trimethyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 6 bromo 1,5 dimethyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 6 fluoro 1 methyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 6 fluoro 4 (2 methoxyphenyl) 1 methyl 3,4 dihydroquinolin 2(1h) one [1] |
| 3 benzoyl 6 methoxy 1 methyl 4 phenyl 3,4 dihydroquinolin 2(1h) one [1] |
| 4 (2,3 dimethoxyphenyl) 6 fluoro 3 (4 methoxybenzoyl) 1 methyl 3,4 dihydroquinolin 2(1h) one [1] |
| 4 (4 bromo 2 fluorophenyl) 1,5,7 trimethyl 3 (4 methylbenzoyl) 3,4 dihydroquinolin 2(1h) one [1] |
| 4 (4 bromo 2 fluorophenyl) 1,5,7 trimethyl 3 [4 (trifluoromethyl)benzoyl] 3,4 dihydroquinolin 2(1h) one [1] |
| 4-Nitrophenol [1] |
| 6 methoxy 2 methyl 3 (3,4,5 trimethoxybenzoyl)benzofuran 7 yl phosphate disodium [1] |
| 6 methoxy 3 (4 methoxybenzoyl) 1 methyl 4 phenyl-3,4 dihydroquinolin 2(1h) one [1] |
| 6 methyl 8 (4 methylbenzoyl) 9 [3 (trifluoromethyl)phenyl] 2,3,8,9 tetrahydro[1,4]dioxino[2,3 g]quinolin 7(6h) one [1] |
| 8 (3,4 dimethoxybenzoyl) 6 methyl 9 [3 (trifluoromethyl)phenyl] 2,3,8,9 tetrahydro[1,4]dioxino[2,3 g]quinolin 7(6h) one [1] |
| 8 benzoyl 6 (prop 2 yn 1 yl) 9 [3 (trifluoromethyl)phenyl] 2,3,8,9 tetrahydro[1,4]dioxino[2,3 g]quinolin 7(6h) one [1] |
| 8 benzoyl 6 methyl 9 [3 (trifluoromethyl)phenyl] 2,3,8,9 tetrahydro[1,4]dioxino[2,3 g]quinolin 7(6h) one [1] |
| ?-Amino amidines [1] |
| ?-Amyloid [1] |
| ?-amyloid [1] |
| ?-bond metathesis [1] |
| ?-Carboline [2] |
| ?-carboline [3] |
| ?-carboline N-fused imidazoles [1] |
| ?-Carbolines [1] |
| [3+2] Cycloaddition [1] |
| [Au2{S2P(OiPr)2}2]n complex [1] |
| [BMIM]Cl [1] |
| ]+ catalyst [3] |
| A-carbon [1] |
| A<sup>3</sup>-coupling [1] |
| Absorption spectroscopy [1] |
| acetoacetic acid [1] |
| Acetyl oxime [1] |
| Acetylcholinesterase [1] |
| acetylcholinesterase [1] |
| acetylcholinesterase inhibitors [1] |
| Acidic functional groups [1] |
| Activation enthalpy [1] |
| Active electrodes [1] |
| Active methylene compounds [1] |
| Addition reactions [1] |
| Additives [1] |
| Adsorption [1] |
| Adsorption kinetics [1] |
| Alginic acid [1] |
| Alkali molten-globule [1] |
| Alkalinity [2] |
| Alkyl cyanides [1] |
| Alkylhalides [1] |
| alkyne derivative [1] |
| Allene intermediate [1] |
| Aluminum compounds [1] |
| Alzheimer's disease [2] |
| Alzheimer�s disease [2] |
| amide [1] |
| Amides [3] |
| amides [1] |
| amidine [1] |
| Amido amine derivative of alginic acid [1] |
| amine [1] |
| Amines [2] |
| AMR [1] |
| anetumab ravtansine [1] |
| Angiotensinogen [1] |
| Animal [1] |
| Animals [1] |
| Anion Binding [1] |
| Anion Effects [1] |
| antagonist [1] |
| Anthocyanins [1] |
| antibacterial activity [1] |
| antibiotics [1] |
| Anticancer activity [1] |
| Antifungal [1] |
| Antimutagenic agent [1] |
| Antioxidant activity [1] |
| Antioxidants [1] |
| Antiplasmodial [1] |
| apoptosis [1] |
| aptamers and enzymes [1] |
| aqueous solution diode [1] |
| Aromatic compounds [1] |
| Aromatic nitro compounds [1] |
| Arsenic adsorption [1] |
| Article [4] |
| Arylboronates [1] |
| arylpiperazines [1] |
| Atoms [1] |
| Attenuated total reflectance Fourier transform infrared [1] |
| Au nanoparticle [1] |
| Au nanorods [1] |
| Au nanostars [1] |
| Au/Ag [1] |
| Au/CdSe [1] |
| Au/Cu [1] |
| Au/ZnO; composite; nanorods; Photocatalyst [1] |
| Au/ZnS [1] |
| Azadirachta indica [2] |
| Azirine [1] |
| Basic conditions [1] |
| Benzimidazole derivatives [1] |
| Benzimidazoles [2] |
| Benzothiazin-4-ones [1] |
| benzothiazoles [1] |
| beta carboline derivative [1] |
| Bi-functional [2] |
| BiFeO<sub>3</sub> [1] |
| Bifunctional activity [1] |
| Bifunctional electrocatalysts [3] |
| Bifunctional electrodes [1] |
| Bifunctional NiO [1] |
| Bimetallic [1] |
| bimetallic [1] |
| Bimetallic compositions [1] |
| Bimetallic core-shell nanoparticles [1] |
| Bimetallic cores [1] |
| Bimetallic nanoparticles [1] |
| Bimetallic nanostructures [1] |
| Bimetallics [1] |
| Binary alloys [2] |
| Binary composites [1] |
| binding affinity [1] |
| Binding Sites [1] |
| Biochar [1] |
| biofilm inhibition assay [1] |
| Biohazards [1] |
| Biomass [1] |
| Biomass-derived solvent [1] |
| Biomimetic approaches [1] |
| Biomimetic processes [1] |
| Biomimetics [1] |
| Biomolecules [1] |
| biosensors [1] |
| Biosorbent [1] |
| blood pressure [1] |
| Bond formation [1] |
| Borylation [1] |
| Bosentan [1] |
| Bovine [1] |
| Brunauer emmett tellers [1] |
| bundle [1] |
| Butanol [1] |
| Butyric acid [1] |
| C(1)-functionalization [1] |
| C(sp<sup>3</sup>)? activation [1] |
| C-H activation [1] |
| C-H functionalization [1] |
| C-N bond formation [1] |
| C?C coupling reaction [1] |
| Cadmium compounds [1] |
| cancer chemotherapy [1] |
| Capacitance [1] |
| Carbon [2] |
| Carbon dioxide [2] |
| carbon nanofibers [1] |
| Carbon nanotubes [1] |
| Carboxylation [2] |
| carboxylic acid derivative [1] |
| carcinogenic activity [1] |
| Cascade cyclization [1] |
| Cascade reaction [1] |
| Cascade reactions [1] |
| Catalysis [1] |
| catalysis [2] |
| Catalyst [2] |
| catalyst [2] |
| Catalyst activity [6] |
| Catalyst supports [1] |
| Catalyst-free [1] |
| Catalysts [1] |
| Catalytic environment [1] |
| Catalytic properties [1] |
| catalytic properties [1] |
| Cationics [1] |
| Cattle [1] |
| cell [1] |
| cell migration [1] |
| cell signaling assay [1] |
| Cellulose [2] |
| Chalcone [1] |
| Charge transfer [1] |
| charge transfer [1] |
| Chelation [1] |
| Chemical Bond [1] |
| chemical bond [1] |
| chemical composition [1] |
| Chemical stability [1] |
| chemical structure [2] |
| Chemistry [1] |
| Chickpea [1] |
| Chirality [1] |
| Chitosan [1] |
| Chlorine compounds [1] |
| Chromatographic techniques [1] |
| Chromatography [1] |
| cinnamic acid derivative [1] |
| Clean energy [1] |
| Clean energy generation [1] |
| Click Chemistry [1] |
| CO-association dynamics [1] |
| Co<sub>3</sub>O<sub>4</sub>/MoO<sub>3</sub>/g-C<sub>3</sub>N<sub>4</sub> [1] |
| Cobalt [1] |
| Cobalt compounds [1] |
| Cobalt metallography [1] |
| cobalt phosphate [1] |
| Cobalt-nickel [1] |
| colchicine [1] |
| Cold denaturation [2] |
| coltuximab ravtansine [1] |
| combretastatin A1 phosphate [1] |
| combretastatin A4 phosphate [1] |
| Complex [1] |
| complex formation [1] |
| Composite [2] |
| composite [2] |
| Composite nano rods [1] |
| Composite nanostructures [1] |
| Composites structures [1] |
| Condition [1] |
| conductance [1] |
| Conduction band edge [1] |
| conjugation [1] |
| Constrained dynamics [3] |
| Control experiments [1] |
| controlled study [3] |
| Conventional energy sources [1] |
| Cooperative catalysis [1] |
| Copper [5] |
| copper [1] |
| Copper alloys [1] |
| Copper catalysis [1] |
| Copper catalyst [1] |
| Copper compounds [3] |
| Copper ferrites [1] |
| Copper nanoparticles [1] |
| Copper oxides [1] |
| Core shell [2] |
| Core shell nano structures [1] |
| Core-shell nanoparticles [2] |
| Core-shell nanostructure [1] |
| Core-shell nanostructures [1] |
| core−shell [1] |
| Cost effective [1] |
| Cost Effectiveness [1] |
| Cost effectiveness [3] |
| Coulomb blockade [1] |
| Coulomb staircase [1] |
| Counteracting effect [2] |
| Cr(VI) [1] |
| Cr(VI) adsorption [1] |
| cross coupling reaction [1] |
| Crosslinking [1] |
| Crowding agents [4] |
| Crystal atomic structure [2] |
| Crystal structure [2] |
| Crystal structure analysis [1] |
| Crystal symmetry [1] |
| Crystal violet [1] |
| Crystallinity [1] |
| Cu catalyst [1] |
| Cu catalysts [1] |
| Cu(II)-Catalysis [1] |
| Cu-catalysts [1] |
| Cu<sub>2</sub>O@MCC [1] |
| CuAgAu [1] |
| curative agents [1] |
| current density [1] |
| Cyclic voltammetry [1] |
| cyclic voltammetry [1] |
| Cyclization [1] |
| cyclization [1] |
| Cytochrome c [2] |
| Cytotoxicity [1] |
| cytotoxicity assay [1] |
| C�S/O bond formation [1] |
| DABCO [1] |
| De-nitration [1] |
| de-nitration [1] |
| Decarboxylation [2] |
| decarboxylation [1] |
| Decarboxylation reactions [1] |
| Decomposition [1] |
| Decomposition approach [1] |
| Decorated [1] |
| decorated [1] |
| Denaturation [1] |
| Density Functional Calculations [1] |
| Density functional theory [5] |
| Density-functional-theory [2] |
| Depression [1] |
| depression [1] |
| Desi and kabuli [1] |
| Design [1] |
| Design for testability [1] |
| Dextran [1] |
| Dextrans [1] |
| DFT analysis [1] |
| DFT studies [1] |
| Dichalcogenide [1] |
| Differential gene expression [1] |
| Diffusion method [1] |
| Dihydrocoumarins [1] |
| dihydroquinoline derivative [1] |
| diphenylpyrimidine [1] |
| Direct reactions [1] |
| directing groups [1] |
| distilled water [1] |
| Dithiocarbamates [1] |
| Dithiophosphonato [1] |
| DNA [2] |
| Doping (additives) [2] |
| Drug activity [1] |
| Drug Discovery [1] |
| Drug discovery [3] |
| drug synthesis [1] |
| Drugs [1] |
| Dual role [1] |
| dumbbell-shaped [1] |
| Durability [1] |
| Dyeing [1] |
| Dyes [1] |
| Eco-friendly [1] |
| economic aspect [1] |
| Efficient synthesis [1] |
| Electric fields [1] |
| electric potentia [1] |
| Electro reduction [1] |
| Electrocatalysis [4] |
| electrocatalysis [1] |
| Electrocatalyst [1] |
| electrocatalyst [1] |
| Electrocatalysts [10] |
| Electrocatalytic [7] |
| Electrocatalytic activity [1] |
| Electrochemical [1] |
| electrochemical analysis [1] |
| Electrochemical impedance spectroscopy [1] |
| electrochemical instrumentation [1] |
| Electrochemical oxygen [2] |
| Electrochemical performance [1] |
| Electrochemical response [1] |
| Electrochemicals [1] |
| Electrode material [1] |
| Electrodeposition [1] |
| Electrodes [2] |
| Electrolysis [1] |
| Electrolytes [1] |
| Electrolytic reduction [1] |
| Electromagnetic induction [1] |
| Electron hole recombination process [1] |
| Electron transport [1] |
| electron transport [1] |
| Electron transport chain [1] |
| Electron transport properties [2] |
| Electronic properties [1] |
| electrophilicity [1] |
| Electrospray ionization [2] |
| Electrospray ionization mass spectrometry [1] |
| Electrostatics [1] |
| elemental sulfur [1] |
| Endothelial growth factor receptor (EGFR) [1] |
| endothelin [2] |
| Energy applications [1] |
| Energy conversion and storages [1] |
| Energy dispersive spectroscopy [1] |
| Energy efficiency [1] |
| Energy harvesting [1] |
| Energy productions [1] |
| Energy source [1] |
| Energy transfer [1] |
| Energy transfer efficiency [1] |
| Engineered nanoparticles [1] |
| Enhanced Raman scattering [1] |
| Enthalpic Barriers [1] |
| Enthalpy-entropy plot [2] |
| Entropic stabilization [1] |
| Environment remediation [1] |
| Environmental applications [1] |
| Environmental remediation [1] |
| Environmental-friendly [1] |
| Environmentally benign [2] |
| Essential oil [1] |
| Esters [1] |
| ethyl 2 (3 benzoyl 2 oxo 4 phenyl 3,4 dihydroquinolin 1 (2h) yl]acetate [1] |
| ethyl 2 [3 benzoyl 4 (4 bromo 2 fluorophenyl) 5,7 dimethyl 2 oxo 3,4 dihydroquinolin 1(2h) yl]acetate [1] |
| ethyl 2 [4 (4 bromo 2 fluorophenyl) 5,7 dimethyl 3 (4 methylbenzoyl) 2 oxo 3,4 dihydroquinolin 1(2h) yl]acetate [1] |
| europium molybdate [1] |
| EXAF [1] |
| Excluded volume effect [2] |
| Extended X ray absorption fine structure spectroscopy [1] |
| Extended X-ray absorption fine structures [1] |
| Fabrication [1] |
| Facile synthesis [1] |
| Fe3+ ions [1] |
| Fe<sub>2</sub>O<sub>3</sub>@cellulose [1] |
| Ferrite [1] |
| Ferrite nanoparticles [1] |
| Ferrocenyl [1] |
| Ferrocytochrome c [1] |
| Ficoll [1] |
| Field emission microscopes [1] |
| field emission scanning electron microscopy [1] |
| Flowering [1] |
| Fluorescence [1] |
| fluorescence [2] |
| Fluorescence resonance energy transfer [1] |
| fluorescent probe [1] |
| Fluorophores [1] |
| Folding kinetics [1] |
| Fourier transform infrared [1] |
| Fourier transform infrared spectroscopy [3] |
| Framework structures [1] |
| free radical [1] |
| Free radicals [1] |
| FRET [1] |
| Fuller's earth [1] |
| functional group [2] |
| Functional polymers [1] |
| Functional Properties [1] |
| Functionalized [1] |
| Fused pyrrole [1] |
| Gas generation [1] |
| Gas-phases [1] |
| GC–MS [1] |
| Gene Expression [1] |
| Genes [1] |
| Genomic DNA [1] |
| glyoxylic acid [1] |
| Gold [4] |
| Gold compounds [1] |
| Gold metallography [1] |
| gold nanoparticle [1] |
| Gold nanoparticles [1] |
| Good stability [1] |
| Grafting (chemical) [1] |
| Graphene [1] |
| Graphene oxide [1] |
| Graphitic Carbon Nitride [1] |
| Gravimetry [1] |
| Green Chemistry [1] |
| Green chemistry [1] |
| Green manufacturing [1] |
| Green synthesis [1] |
| Ground state [1] |
| Ground water [1] |
| Growth mechanisms [1] |
| Haryana [1] |
| Hazard index [1] |
| Hazardous chemicals [1] |
| Heat denaturation [1] |
| Heavy metal pollution index [1] |
| Heavy metals [1] |
| Hematite [1] |
| HER [4] |
| Heterocycles [1] |
| heterocyclic compounds [2] |
| Heterogeneous catalyst [2] |
| Heterojunctions [2] |
| Heterometallics [1] |
| Heterostructure [1] |
| Hexavalent chromium [2] |
| High resolution transmission electron microscopy [5] |
| high temperature [1] |
| High-voltages [1] |
| Higher yield [1] |
| Highly stables [1] |
| Histone H3 [1] |
| Homoleptic [1] |
| Hot electrons [1] |
| HRTEM [1] |
| Hybrid molecules [1] |
| Hydrides [1] |
| Hydrogen [5] |
| Hydrogen bonding network [1] |
| Hydrogen bonds [1] |
| Hydrogen Catalyst [1] |
| hydrogen evolution reaction [2] |
| Hydrogen evolution reaction activities [1] |
| Hydrogen evolution reactions [6] |
| Hydrogen generations [1] |
| Hydrogen production [4] |
| Hydrogen-evolution [1] |
| Hydrogen-Ion Concentration [1] |
| Hydrophobic interactions [1] |
| IC<sub>50</sub> values [1] |
| II-VI semiconductors [3] |
| Image enhancement [1] |
| Imidazo[1,2-a]pyridines [1] |
| Imidazole [2] |
| imidazopyridoindole [1] |
| Imine/amide-imidazole [1] |
| iminium ion [1] |
| immunosensors [1] |
| impedance spectroscopy [1] |
| In vitro study [1] |
| Indole [2] |
| indole derivative [1] |
| Indole derivatives [1] |
| indolizino[8,7 b]indole derivative [1] |
| Indolizino[8,7-b]indole [1] |
| Inductively Coupled Plasma Mass Spectrometry [1] |
| Inhibitory dose [1] |
| Inorganics [1] |
| Insulin Resistance [1] |
| Integration [1] |
| interfacial charge transfer [1] |
| Interfacial design [1] |
| Intrinsic Chirality [1] |
| iodine [1] |
| Iodine catalysed [1] |
| iodobenzene [1] |
| Ion exchange [1] |
| Ionic liquid [2] |
| Ionic Screenings [1] |
| Ions [2] |
| IR absorption spectroscopy [1] |
| Ir complexes [1] |
| iridium complex [1] |
| Iridium compounds [2] |
| Iron [2] |
| Iron loading [1] |
| Iron metallography [1] |
| Iron oxide nanoparticle [1] |
| Iron Oxides [1] |
| Iron oxides [1] |
| Iron release [1] |
| Isomerism [1] |
| Isomers [1] |
| Isoquinoline N-oxide [1] |
| Isoxazoles [1] |
| Kinetic Study [1] |
| Kinetics [3] |
| KO<sup>t</sup>Bu [1] |
| Kumujian C [5] |
| LaCoO<sub>3</sub> [1] |
| Laser excitation [1] |
| Laser spectroscopy [1] |
| late-stage diversification [1] |
| Leaching [1] |
| Lead adsorption [1] |
| lexibulin [1] |
| Life cycle [1] |
| ligand [2] |
| Ligands [2] |
| linear sweep voltammetry [1] |
| Lipids [1] |
| Lithium compounds [1] |
| Loading [1] |
| Localized surface plasmon resonance [1] |
| Lonic interactions [1] |
| Low-costs [1] |
| Low-frequency local motion [1] |
| Macromolecular Crowding [1] |
| Macromolecular crowding [1] |
| Macromolecular Substances [1] |
| Macromolecule [1] |
| Macromolecules [2] |
| Magnetic nanoparticles [1] |
| Magnetite [1] |
| Manganese compounds [1] |
| MAO inhibitors [1] |
| MAO-A inhibitors [1] |
| marigold flower [1] |
| Mass spectrometry [2] |
| MBH reaction [1] |
| Mechanical stability [1] |
| Mechanistic studies [2] |
| Mechanistics [1] |
| Medicinal chemistry [1] |
| Mesoporous [1] |
| Metabolites estimation [1] |
| Metabolome [1] |
| metal [1] |
| Metal free [3] |
| Metal halides [1] |
| Metal index [1] |
| Metal ions [2] |
| Metal nanoparticles [2] |
| Metal phosphonates [1] |
| Metal semiconductors [1] |
| Metal-free [1] |
| metal-free [1] |
| metal-free synthesis [1] |
| Metalorganic frameworks (MOFs) [1] |
| Metals [1] |
| Methanol [2] |
| methanol oxidation [1] |
| Methanol oxidation reactions [1] |
| Methanol synthesis [1] |
| Methylene blue dye degradation [1] |
| Michael addition [1] |
| Michael addition reactions [1] |
| Michael additions [1] |
| Micro-crystalline cellulose [2] |
| MicrOCRystalline Cellulose [1] |
| Microcrystalline cellulose [1] |
| Microcrystals [1] |
| Microsecond folding kinetics [1] |
| Microwave irradiation [1] |
| Mild reaction conditions [1] |
| milk [1] |
| MIPs [1] |
| Molecular catalysts [1] |
| Molecular compaction [1] |
| Molecular hydrogen [1] |
| Molecular modeling [1] |
| Molecular oxygen [1] |
| Molecular precursor [1] |
| Molten globule [1] |
| Molten-globule state [2] |
| molybdenum disulfide [1] |
| Monarda citriodora [1] |
| Monoamine oxidase [1] |
| monoamine oxidase [1] |
| Monomers [1] |
| Morphological changes [1] |
| Morphological transitions [1] |
| Morphology [3] |
| MoS<sub>2</sub>/V<sub>2</sub>O<sub>5</sub> [1] |
| Motional dynamics [1] |
| MTDLs [1] |
| Multi-level hierarchies [1] |
| Multi-target directed ligands [1] |
| multi-target directed ligands [1] |
| Multicomponent reaction (MCR) [1] |
| Multicomponent reactions [1] |
| multicomponent reactions [1] |
| multitarget directed ligands [1] |
| Mutagenicity [1] |
| MWCNT/NiS/MoS<sub>2</sub> [1] |
| n [2 [(4 hydroxyphenyl)amino] 3 pyridinyl] 4 methoxybenzenesulfonamide [1] |
| n methyl 2 [3 (4 methylbenzoyl) 2 oxo 4 phenyl 3,4 dihydroquinolin 1(2h) yl] n [3 phenyl 3 [4 (trifluoromethyl)phenoxy]propyl]acetamide [1] |
| N,S-heterocycles [1] |
| N-heterocycles [5] |
| Nano particulates [1] |
| Nano zerovalent copper [1] |
| Nano-catalyst [2] |
| Nanobowls [1] |
| Nanocatalysts [5] |
| Nanoclusters [1] |
| Nanocrystalline materials [1] |
| Nanocrystals [2] |
| Nanoemulsion [1] |
| Nanoflower [1] |
| Nanoflowers [1] |
| Nanomanganese oxide [1] |
| nanomaterials [1] |
| nanoparticle [1] |
| Nanoparticles [5] |
| Nanopesticides [1] |
| Nanoplates [1] |
| Nanorods [5] |
| nanorods [1] |
| Nanosensors [1] |
| nanoshell [1] |
| Nanostar [2] |
| nanostructure [1] |
| Nanostructures [4] |
| Nanotetrapods [1] |
| Neurological disorders [1] |
| neuroprotective agents [1] |
| Neutron Diffraction [1] |
| NH<sub>2</sub>OH?HCl reagent [1] |
| Ni<sub>3</sub>V<sub>2</sub>O<sub>8</sub> [1] |
| nickel [1] |
| Nickel compounds [3] |
| Nickel oxide [2] |
| Nickel oxides (NiO) [1] |
| Nickel phosphonate [1] |
| NiO nanoparticles [1] |
| Nitroarenes [1] |
| nitrochalcone [1] |
| Nitrogen doped carbon nanotubes [1] |
| Nitrogen functionalization [1] |
| Non human [1] |
| Nonfertilizer [1] |
| Nonlinear absorptions [1] |
| Nonlinear optics [1] |
| Nonstoichiometric [1] |
| NSAID [1] |
| Nuclear magnetic resonance spectroscopy [1] |
| Nuclearity [1] |
| nZVI [2] |
| OER [5] |
| ombrabulin [1] |
| One pot [3] |
| one pot synthesis [3] |
| One-dimensional [1] |
| One-pot [1] |
| one-pot [1] |
| One-pot procedures [1] |
| Optical limiting [1] |
| Optical limiting applications [1] |
| Optical materials [1] |
| Optical switches [1] |
| Optical waveguides [1] |
| Optimization studies [1] |
| Organic ligands [1] |
| Organic macromolecules [1] |
| Organic polymers [1] |
| Organic reaction [1] |
| Organometallics [1] |
| Oxadiazoles [1] |
| Oxazoles [1] |
| oxidative amidation [1] |
| Oxide minerals [1] |
| Oxide nanoparticles [1] |
| Oxidized biochar [1] |
| Oxygen [8] |
| oxygen [1] |
| oxygen enhancement ratio [1] |
| Oxygen evolution [1] |
| Oxygen evolution reaction [1] |
| oxygen evolution reaction [2] |
| Oxygen evolution reaction (oer) [1] |
| P(NMe<sub>2</sub>)<sub>3</sub> [1] |
| PANI composites [1] |
| Papain [1] |
| papain [1] |
| papaya [1] |
| Parkinson�s disease [1] |
| pathogenesis [1] |
| pathology [1] |
| Penicillium digitatum [1] |
| Performance [2] |
| Perovskite oxide [2] |
| Ph [1] |
| Pharmaceutical [1] |
| Pharmaceuticals [1] |
| Pharmacogenetics [1] |
| Pharmacology [1] |
| Pharmacophore [3] |
| Pharmacophores [1] |
| Phenolics [1] |
| Phenyl glyoxal [1] |
| Phenylenediamine derivative [1] |
| phenylglyoxylic acid [1] |
| Photo-catalytic [1] |
| Photo-reduction [1] |
| Photocatalysis [1] |
| photocatalysis [1] |
| Photocatalyst [1] |
| Photocatalysts [1] |
| Photocatalytic activiti [1] |
| Photocurrent [1] |
| Photocurrents [1] |
| Photoelectrochemical cells [1] |
| Photoluminescence intensities [1] |
| Photoluminescence spectroscopy [1] |
| Photonic devices [1] |
| Photophysical [1] |
| Photophysical Properties [1] |
| Physisorption [1] |
| Phytoconstituents [1] |
| Piperazine derivatives [1] |
| Pistachio [3] |
| Plant extract [1] |
| platinum [1] |
| plinabulin [1] |
| PMS activation [1] |
| Porous network structures [1] |
| Potentilla [1] |
| Potentilla fulgens [1] |
| Precious metals [3] |
| precipitation [1] |
| Process Development [1] |
| Production of hydrogen [1] |
| Protein unfolding [1] |
| Proteins [1] |
| Pulmonary arterial hypertension (PAH) [1] |
| Pulmonary capillary wedge pressure (PCWP) [1] |
| pyrazole carbaldehydes [1] |
| pyrazole fused thiochromenes [1] |
| Pyrazoles [1] |
| Pyridine [1] |
| pyridine [1] |
| Pyrimidine [1] |
| pyrrole derivative [1] |
| Pyrrole derivatives [1] |
| Pyrroles [1] |
| Quantitative yields [1] |
| Quantum confinement effects [1] |
| Radical cascade reactions [1] |
| Raman [1] |
| Raman scattering [2] |
| Raman spectrometry [1] |
| Reaction activity [1] |
| Reaction Analysis [1] |
| reaction analysis [1] |
| Reaction catalyzed [1] |
| Reaction conditions [2] |
| Reaction kinetics [4] |
| reaction optimization [1] |
| Reaction strategies [1] |
| reagent [1] |
| Rectification [1] |
| Recyclable catalyst [1] |
| Redox process [1] |
| Redox reactions [1] |
| Reduced biochar [1] |
| Reduced graphene oxide [1] |
| Reduction-induced iron release [1] |
| Reductive regeneration [1] |
| Regioselective reactions [1] |
| Regioselective synthesis [1] |
| Regioselectivity [1] |
| regioselectivity [2] |
| Resonance tunneling [1] |
| Reverse saturable absorption [1] |
| Reverse transcriptase inhibitor [1] |
| Revertant [1] |
| Rheology [1] |
| Rhodamine 6G [1] |
| rhodamine 6G [1] |
| Rhododendron arboreum [1] |
| room temperature [1] |
| Ru complexes [1] |
| ruthenium complex [1] |
| Ruthenium compounds [1] |
| Salmonella enterica serovar Typhimurium [1] |
| SAXS [1] |
| Scaffolds [2] |
| Scale-up experiment [1] |
| Scanning Electron Microscopy [1] |
| Scanning electron microscopy [2] |
| Schottky barrier diodes [1] |
| SDS [1] |
| Secondary amines [1] |
| seed free [1] |
| Semiconducting cadmium compounds [1] |
| Semiconductor materials [1] |
| Semiconductor nanocrystals [1] |
| Semiconductor quantum dots [2] |
| Semiconductor quantum wells [1] |
| Separation techniques [1] |
| SERS [1] |
| Sharp tip [1] |
| Shell nanoparticles [1] |
| Shells (structures) [4] |
| Silver [1] |
| Silver alloys [1] |
| Silver compounds [2] |
| Silver cores [1] |
| Silver nanoclusters [2] |
| Silver(I) cluster [1] |
| Simple++ [1] |
| Single crystal X-ray analysis [1] |
| Single crystals [3] |
| single molecular precursor [1] |
| Single-molecule force spectroscopy [1] |
| Single-step [1] |
| Sirsa [1] |
| Slow diffusion [1] |
| Sluggish kinetics [1] |
| Sodium azide [1] |
| Sodium Borohydride [1] |
| Sodium Chloride [1] |
| Solid-state synthesis [1] |
| Solution methods [1] |
| Solutions [1] |
| Soy protein isolates [1] |
| Specific capacitance [1] |
| specific capacitance [1] |
| Spectroscopic analysis [1] |
| Spectroscopic and microscopic techniques [1] |
| Spectroscopic evidence [1] |
| Spectroscopic studies [1] |
| Spectroscopy [1] |
| Spinel-type [1] |
| Spiro compounds [1] |
| Stability [2] |
| Stability of iron centers [1] |
| Stairs [1] |
| Stereochemistry [1] |
| Stoichiometric ratio [1] |
| Structural determination [1] |
| Structural evolution [1] |
| Structural Stabilities [1] |
| Structural stability [1] |
| Structural variations [1] |
| Structure Analysis [1] |
| structure-fluorescence activity relationship [1] |
| Structure�activity relationship [2] |
| Styrylisoxazole [1] |
| Substrates [1] |
| Sulfate radical [1] |
| sulfides [1] |
| sulfonamide [1] |
| Sulfur [1] |
| Sulfur compounds [3] |
| Sulfur insertion [1] |
| sulfur insertion [2] |
| Sulphonamides [1] |
| Sulphur atoms [1] |
| Superabsorbent hydrogel [1] |
| Superabsorbent polymer [1] |
| Superatoms [2] |
| Supercapacitor [2] |
| supercapacitor [1] |
| Surface area [1] |
| surface area [1] |
| Surface enhanced Raman [1] |
| Surface enhanced Raman Scattering (SERS) [1] |
| Surface plasmon resonance [1] |
| Surface reactions [2] |
| Surface scattering [2] |
| Sustainable agriculture [1] |
| Sustainable development [2] |
| Sustainable energy [2] |
| Synergistic anions [1] |
| Synergistic effect [2] |
| Synergy [2] |
| Synthesis [1] |
| synthesis [4] |
| Synthesis (chemical) [7] |
| Synthesis conditions [1] |
| Synthesis gas manufacture [1] |
| Synthesis techniques [1] |
| Synthesised [9] |
| Synthetic schemes [1] |
| Synthetic utility [1] |
| Tafel slopes [1] |
| Tantalum oxides [1] |
| Tellurium [1] |
| Tellurium compounds [1] |
| Templated [2] |
| Ternary nanocomposite [1] |
| ternary phosphate [1] |
| Tetherlines [1] |
| Tetracycline degradation [1] |
| Tetrahydroisoquinoline [1] |
| tetrahydroisoquinoline [1] |
| Tetrazoles [1] |
| Ther [1] |
| Thermal Analysis [1] |
| Thermal stability [3] |
| Thermodynamic stability [5] |
| Thermodynamics [1] |
| Thermogravimetric analysis [2] |
| thioamides [1] |
| Third-order nonlinear optical [1] |
| Three component reactions [1] |
| Three-dimensional frameworks [1] |
| Time-resolved spectroscopy [1] |
| TiO2 [1] |
| Topoisomerase inhibition [1] |
| tracleer [1] |
| trans-esterification [1] |
| Transamidation [1] |
| Transcriptome [1] |
| Transferrin [1] |
| Transition metal sulfides [1] |
| Transition metal-free [1] |
| Transition metals [1] |
| transition- metals [1] |
| Transition-metal-free [1] |
| Transmission Electron Microscopy [1] |
| trastuzumab emtansine [1] |
| Triazoles [1] |
| Trimetallic [1] |
| tubulin [1] |
| Ugi-type reaction [1] |
| unclassified drug [2] |
| UV-visible [1] |
| valence (chemistry) [1] |
| verubulin [1] |
| vinblastine [1] |
| vincristine [1] |
| Visible light [1] |
| Visible light induced [1] |
| Water controlled study [1] |
| Water oxidation [1] |
| Water splitting [6] |
| water splitting [2] |
| Water splitting reactions [1] |
| Winter adaptation [1] |
| X ray absorption [1] |
| X ray analysis [1] |
| X ray crystallography [1] |
| X ray diffraction [1] |
| X ray diffraction analysis [1] |
| X ray photoelectron spectroscopy [4] |
| X ray photoemission spectroscopy [1] |
| X ray powder diffraction [1] |
| XPS [1] |
| XRD [1] |
| Z-scan [1] |
| Zerovalent copper [2] |
| Zerovalent iron [1] |
| Zinc [1] |
| Zinc compounds [1] |
| Zinc oxide [4] |
| zinc oxide nanoparticle [1] |
| Zn(II) Di-isobutyldithiocarbamate. [1] |
