Listing 1 - 10 of 17 | << page >> |
Sort by
|
Choose an application
Carbamazepine --- Lidocaine --- Tinnitus --- Administration & dosage. --- Therapeutic use. --- Drug therapy.
Choose an application
Tinnitus --- Carbamazepine --- Lidocaine --- drug therapy --- administration & dosage --- therapeutic use
Choose an application
Aviation toxicology --- Forensic toxicology. --- Aircraft accidents --- Carbamazepine --- Research. --- Investigation. --- Human factors.
Choose an application
Epilepsy --- Carbamazepine --- Problem children --- Psychopharmacology --- Trigeminal neuralgia --- Epilepsy --- Anticonvulsants --- Social behavior disorders --- Social behavior disorders --- Pain
Choose an application
Psychiatry --- Pharmacology. Therapy --- Acide valproïque --- Anti-epileptic drugs --- Anticonvulsant drugs --- Anticonvulsants --- Anticonvulsia --- Anticonvulsifs --- Anticonvulsivants --- Antiepileptic agents --- Antiepileptica --- Antiepileptics --- Antiepileptiques --- Carbamazepine --- Carbamazépine --- Dibenzazepinecarboxamide --- Valproic acid --- Valproizuur --- Affective disorders --- Chemotherapy --- Affective disorders - Chemotherapy. --- Valproic acid.
Choose an application
Abnormalities, Drug-Induced --- Valproic Acid --- Carbamazepine --- Epilepsy --- Pregnancy Complications --- Anticonvulsants --- etiology --- adverse effects --- pharmacology --- drug therapy --- drug therapy --- adverse effects
Choose an application
Anticonvulsants. --- Carbamazepine. --- Dibenzazepinecarboxamide --- Amides --- Anticonvulsants --- Anti-epileptic drugs --- Anticonvulsant drugs --- Antiepileptic agents --- Antiepileptics --- Central nervous system depressants --- Muscle relaxants --- Convulsions --- Chemotherapy
Choose an application
Catalysts are widely used in a great variety of technologies, providing remarkable efficiency in order to address sustainable energy production, climate change challenges, and to reduce industrial emissions. In the framework of the Environmental Catalysis section promoted by the Catalysts Editorial Office, this Special Issue, entitled “Environmental Friendly Catalysts for Energy and Pollution Control Applications”, comprises novel studies representing the state-of-the-art research for efficient energy generation and industrial emission control based on new environmentally friendly catalyst materials (EFCs). In particular, in this Special Issue (SI), different kinds of catalysts are presented for catalytic solutions, including the reduction of NOx emissions (new zeolite catalyst modified with Pt), the elimination of volatile organic compounds (Co3O4@SiO2 and acidic surface transformed natural zeolite) and the removal of SO2 emissions (through adsorption processes with sodium citrate). Moreover, novel biocatalysts for bioanodes and new functional nanostructured catalysts based on metal–organic framework (MOFs) for different applications are also included. Additionally, articles compiled in this SI are also focused on the improvement of catalytic processes. Thus, selected processes based on activated carbons (modified with titanium dioxide) and optimized Fenton processes for the removal of aqueous organic pollutants or for the inactivation of bacteria are also presented.
Technology: general issues --- Environmental science, engineering & technology --- photocatalysis --- organic wastewater --- preparation method --- degradation --- characterizations --- hybridization --- exoelectrogen --- biocatalyst --- microenvironment --- porous electrode --- anaerobic --- recalcitrant compounds --- E. coli K12 --- methylene blue --- optimization --- Pareto chart --- perturbation graph --- Pt-based promoter --- CO oxidation --- environmental catalysis --- refinery compliance --- fluid catalytic cracking --- FCC --- sodium citrate --- sodium humate --- SO2 --- absorption --- BaQD --- carbamazepine --- ferric coordination complex --- photo-Fenton --- turbidity --- cyanide --- activated carbon --- titanium dioxide --- composites --- continuous flow --- adsorption --- catalytic ozonation --- Lewis and Brønsted acid sites --- natural zeolite --- reaction mechanism --- toluene --- three-phase modelling --- fixed-bed reactor --- wastewater treatment --- phenol --- granular activated carbon --- Ad/Ox --- volatile organic compounds --- core–shell structures --- spherical polymer templates --- Co3O4 --- Pd-based promoter --- NOx emission --- metal–organic frameworks --- heterogeneous catalysis --- carbon dioxide --- biomass --- hydrogenation --- oxidation --- Fisher-Tropsch --- photocatalysis --- organic wastewater --- preparation method --- degradation --- characterizations --- hybridization --- exoelectrogen --- biocatalyst --- microenvironment --- porous electrode --- anaerobic --- recalcitrant compounds --- E. coli K12 --- methylene blue --- optimization --- Pareto chart --- perturbation graph --- Pt-based promoter --- CO oxidation --- environmental catalysis --- refinery compliance --- fluid catalytic cracking --- FCC --- sodium citrate --- sodium humate --- SO2 --- absorption --- BaQD --- carbamazepine --- ferric coordination complex --- photo-Fenton --- turbidity --- cyanide --- activated carbon --- titanium dioxide --- composites --- continuous flow --- adsorption --- catalytic ozonation --- Lewis and Brønsted acid sites --- natural zeolite --- reaction mechanism --- toluene --- three-phase modelling --- fixed-bed reactor --- wastewater treatment --- phenol --- granular activated carbon --- Ad/Ox --- volatile organic compounds --- core–shell structures --- spherical polymer templates --- Co3O4 --- Pd-based promoter --- NOx emission --- metal–organic frameworks --- heterogeneous catalysis --- carbon dioxide --- biomass --- hydrogenation --- oxidation --- Fisher-Tropsch
Choose an application
This book is a printed edition of the Special Issue Recent Advances in Water Management: Saving, Treatment and Reuse that was published in Water
anaerobic processes --- risk assessment --- B. adusta --- environmental education --- foreign countries --- ornamental plants --- filter media --- Pb(II) --- passive treatment systems --- lignin --- oxygen injection --- water treatment --- guidelines --- microbiological quality --- membrane technology --- contaminated sites --- pulp-and-paper-mill c --- milk production --- wastewater --- efficiency --- forest waste --- vertical flow --- emerging contaminant --- decomposition analysis --- active sites --- water --- sustainability --- water treatment technology --- adsorption thermodynamic --- surface water --- agricultural occupations --- zeolite --- conservation --- trickling filter --- hydrogen sulfide --- nitrification --- organic matter --- constructed wetlands --- sewerage --- water recycling --- treated wastewater reuse --- advanced oxidation processes (AOPs) --- odor control --- anammox bacteria --- wastewater treatment --- ferrous iron --- combined sewer --- surveys --- occurrence --- denitrification --- research and development strategy --- carbamazepine toxicity --- global patent data --- activated carbon adsorption --- China --- food industry --- COD --- palm mulch --- ferrous sulfide --- nano illite/smectite clay --- pharmaceuticals --- footprint --- conventional treatment processes --- anticorrosive agent --- pumping mains --- adsorption kinetics --- swine wastewater --- P. crysosporium --- micropollutant removal --- tezontle --- delignification --- partitioning --- white rot fungi --- river --- anaerobic digester --- benzotriazole
Choose an application
The crystalline state is the most commonly used essential solid active pharmaceutical ingredient (API). The characterization of pharmaceutical crystals encompasses many scientific disciplines, but the core is crystal structure analysis, which reveals the molecular structure of essential pharmaceutical compounds. Crystal structure analysis provides important structural information related to the API's wide range of physicochemical properties, such as solubility, stability, tablet performance, color, and hygroscopicity. This book entitled “Pharmaceutical Crystals"" focuses on the relationship between crystal structure and physicochemical properties. In particular, the new crystal structure of pharmaceutical compounds involving multi-component crystals, such as co-crystals, salts, and hydrates, and polymorph crystals are reported. Such crystal structures were investigated in the latest studies that combined morphology, spectroscopic, theoretical calculation, and thermal analysis with crystallographic study. This book highlights the importance of crystal structure information in many areas of pharmaceutical science and presents current trends in the structure–property study of pharmaceutical crystals. The Guest Editors of this book hope the readers enjoy a wide variety of recent studies on Pharmaceutical Crystals.
crystal structure analysis --- n/a --- famotidine --- solution crystallization --- salt optimization --- structure determination from powder diffraction data --- Hirshfeld surface analysis --- DFT --- molecular docking study --- melting diagram --- dehydration --- hygroscopicity --- HBV --- Benzodioxole --- pharmaceutical crystals --- 4-b]indol-4-one --- pyrimidin-4(3H)-one --- liquid assisted grinding --- HOMO-LUMO --- dissolution --- cocrystal formation --- Raman spectroscopy --- carbamazepine --- hydrogen bonding --- 3 --- ondansetron --- physicochemical properties --- solubility --- succinic acid --- cocrystal --- adefovir dipivoxil --- hepatitis B --- polymorphs --- hydrogen-bond-acceptance ability --- DFT study --- Nitrofurantoin–4-dimethylaminopyridine (NF-DMAP) salt --- photostability --- on-line monitoring --- 5-dihydro-4H-pyrimido[5 --- Imidazole --- Semicarbazone --- crystal habit --- Crystal structure --- solvent-mediated polymorphic transformation --- ticagrelor --- hydrate --- pharmaceutical cocrystal --- malonic acid --- 1H-indole --- reactivity descriptors --- famoxadone --- crystal structure --- dicarboxylic acid --- hydrogen bond --- saccharin --- Nitrofurantoin-4-dimethylaminopyridine (NF-DMAP) salt
Listing 1 - 10 of 17 | << page >> |
Sort by
|