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Publication Date2009, ISBN 9780470681954, xviii, 471
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Coordination Chemistry Reviews, ISSN 0010-8545, 10/2017, Volume 349, pp. 1 - 65
This review gives a comprehensive treatment to show and illustrate current efforts in the field of recyclable catalysis. Results of recycling studies performed...
Heterogeneous catalyst | Recycling | Nanoparticle | Magnetic catalyst | Complex | Ionic liquid | CORE-SHELL NANOPARTICLES | PHASE-TRANSFER CATALYSIS | RECYCLABLE HETEROGENEOUS CATALYST | HIGHLY EFFICIENT | CHEMISTRY, INORGANIC & NUCLEAR | CROSS-COUPLING REACTIONS | SUPPORTED IONIC LIQUID | RHODIUM NANOPARTICLE CATALYST | METAL-ORGANIC FRAMEWORKS | COATED COBALT FERRITE | C-H INSERTION | Ethylene glycol | Dimethylformamide | Catalysts | Nanotubes | Recycling (Waste, etc.) | Polyethylene terephthalate | Silica | Cytokinins | Monounsaturated fatty acids | Graphene | Graphite | Catalysis | Borates
Heterogeneous catalyst | Recycling | Nanoparticle | Magnetic catalyst | Complex | Ionic liquid | CORE-SHELL NANOPARTICLES | PHASE-TRANSFER CATALYSIS | RECYCLABLE HETEROGENEOUS CATALYST | HIGHLY EFFICIENT | CHEMISTRY, INORGANIC & NUCLEAR | CROSS-COUPLING REACTIONS | SUPPORTED IONIC LIQUID | RHODIUM NANOPARTICLE CATALYST | METAL-ORGANIC FRAMEWORKS | COATED COBALT FERRITE | C-H INSERTION | Ethylene glycol | Dimethylformamide | Catalysts | Nanotubes | Recycling (Waste, etc.) | Polyethylene terephthalate | Silica | Cytokinins | Monounsaturated fatty acids | Graphene | Graphite | Catalysis | Borates
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Loading RightsJournal of the American Chemical Society, ISSN 0002-7863, 10/2006, Volume 128, Issue 40, pp. 13261 - 13267
A new concept for noncovalent immobilization of a ruthenium olefin metathesis catalyst is presented. The 2-isopropoxybenzylidene ligand of a Hoveyda−Grubbs...
IMMOBILIZED CATALYSTS | SOLID-SUPPORTED REAGENTS | ORGANIC-SYNTHESIS | CROSS-METATHESIS | CONVENIENT METHOD | CONTINUOUS-FLOW PROCESSES | IONIC LIQUID | RECYCLABLE CATALYST | CLOSING METATHESIS | CHEMISTRY, MULTIDISCIPLINARY | CARBENE COMPLEX | Atomic properties | Ruthenium | Chemical properties | Olefins
IMMOBILIZED CATALYSTS | SOLID-SUPPORTED REAGENTS | ORGANIC-SYNTHESIS | CROSS-METATHESIS | CONVENIENT METHOD | CONTINUOUS-FLOW PROCESSES | IONIC LIQUID | RECYCLABLE CATALYST | CLOSING METATHESIS | CHEMISTRY, MULTIDISCIPLINARY | CARBENE COMPLEX | Atomic properties | Ruthenium | Chemical properties | Olefins
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Loading Rights2010, 1st ed., ISBN 044453556X, xiv, 348
This handbook serves scientists and researchers interested in any aspect of spent hydroprocessing catalysts. Its aim is to assist in the analysis and...
Hazardous wastes | Recycling | Catalysts | Hydrogenation
Hazardous wastes | Recycling | Catalysts | Hydrogenation
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Accounts of Chemical Research, ISSN 0001-4842, 07/2015, Volume 48, Issue 7, pp. 1871 - 1880
CONSPECTUS: The recovery and reuse of catalysts is a major challenge in the development of sustainable chemical processes. Two methods at the frontier between...
GOLD NANOPARTICLES | AMBIENT CONDITIONS | POLYPHENYLENEPYRIDYL DENDRONS | STABILIZED PALLADIUM NANOPARTICLES | COUPLING REACTIONS | CLICK DENDRIMERS | RECOVERABLE CATALYSTS | RECYCLABLE CATALYSTS | METAL NANOPARTICLES | CHEMISTRY, MULTIDISCIPLINARY | SUZUKI-MIYAURA | Dendrimers | Catalysis | Research | Chemical properties | Magnetic properties
GOLD NANOPARTICLES | AMBIENT CONDITIONS | POLYPHENYLENEPYRIDYL DENDRONS | STABILIZED PALLADIUM NANOPARTICLES | COUPLING REACTIONS | CLICK DENDRIMERS | RECOVERABLE CATALYSTS | RECYCLABLE CATALYSTS | METAL NANOPARTICLES | CHEMISTRY, MULTIDISCIPLINARY | SUZUKI-MIYAURA | Dendrimers | Catalysis | Research | Chemical properties | Magnetic properties
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Loading RightsCatalysis Communications, ISSN 1566-7367, 03/2016, Volume 78, pp. 26 - 32
A magnetic carbon nanotube supported Cu catalyst (CoFe O /CNT-Cu) was prepared, characterized and evaluated as a recoverable catalyst for synthesis of...
Carbon nanotubes | Heterogeneous catalyst | 3-Nitro-2-arylimidazo[1,2-a]pyridines | Magnetic nanoparticles | Multi-component reaction | THIOUREA DIOXIDE | EFFICIENT SYNTHESIS | CHEMISTRY, PHYSICAL | H ACTIVATION | MULTICOMPONENT COUPLING REACTION | AMINES | RECYCLABLE CATALYST | HYDROGEN-PEROXIDE | SEPARABLE CATALYST | WATER | Pyridine | Nanotubes
Carbon nanotubes | Heterogeneous catalyst | 3-Nitro-2-arylimidazo[1,2-a]pyridines | Magnetic nanoparticles | Multi-component reaction | THIOUREA DIOXIDE | EFFICIENT SYNTHESIS | CHEMISTRY, PHYSICAL | H ACTIVATION | MULTICOMPONENT COUPLING REACTION | AMINES | RECYCLABLE CATALYST | HYDROGEN-PEROXIDE | SEPARABLE CATALYST | WATER | Pyridine | Nanotubes
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Loading RightsMacromolecular Chemistry and Physics, ISSN 1022-1352, 10/2018, Volume 219, Issue 20, pp. 1800156 - n/a
A novel self‐supporting palladium catalyst based on a polymer containing bulky N‐heterocyclic carbene [P(b‐NHC‐Pd)] is prepared successfully by a simple...
self‐supported palladium catalysts | bulky NHC ligands | efficiency | imidazolium‐based polymers | self-supported palladium catalysts | imidazolium-based polymers | POLYMER SCIENCE | PERSPECTIVE | PALLADIUM COMPLEXES | AQUEOUS-MEDIUM | PD-NHC | IMMOBILIZATION | CROSS-COUPLING REACTIONS | HETEROGENEOUS RECYCLABLE CATALYST | EFFICIENT | ARYL CHLORIDES | PRECATALYST | Palladium catalysts | Heterocyclic compounds | Palladium | Chemical reactions | Catalytic activity | Catalysis | Catalysts | Substrates
self‐supported palladium catalysts | bulky NHC ligands | efficiency | imidazolium‐based polymers | self-supported palladium catalysts | imidazolium-based polymers | POLYMER SCIENCE | PERSPECTIVE | PALLADIUM COMPLEXES | AQUEOUS-MEDIUM | PD-NHC | IMMOBILIZATION | CROSS-COUPLING REACTIONS | HETEROGENEOUS RECYCLABLE CATALYST | EFFICIENT | ARYL CHLORIDES | PRECATALYST | Palladium catalysts | Heterocyclic compounds | Palladium | Chemical reactions | Catalytic activity | Catalysis | Catalysts | Substrates
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Loading RightsChemical Engineering Journal, ISSN 1385-8947, 06/2016, Volume 294, pp. 222 - 235
In this study, macroporous inorganic–organic hybrid polymers (MIPs) were prepared using versatile high internal phase emulsions (HIPEs) templating to...
Hierarchically porous structures | 5-Hydroxymethylfurfural | Brønsted–Lewis acid sites | Cellulose conversion | High internal phase emulsions templating | Brønsted-Lewis acid sites | LIGNOCELLULOSIC BIOMASS | POROUS STRUCTURE | AMORPHOUS-CARBON | MESOPOROUS SILICA NANOPARTICLES | IONIC LIQUID | HETEROGENEOUS CATALYSIS | ENGINEERING, CHEMICAL | ENGINEERING, ENVIRONMENTAL | INTERNAL PHASE EMULSIONS | Bronsted-Lewis acid sites | ONE-POT CELLULOSE | RECYCLABLE CATALYST | TO-HMF CONVERSION | Biomass energy | Cellulose
Hierarchically porous structures | 5-Hydroxymethylfurfural | Brønsted–Lewis acid sites | Cellulose conversion | High internal phase emulsions templating | Brønsted-Lewis acid sites | LIGNOCELLULOSIC BIOMASS | POROUS STRUCTURE | AMORPHOUS-CARBON | MESOPOROUS SILICA NANOPARTICLES | IONIC LIQUID | HETEROGENEOUS CATALYSIS | ENGINEERING, CHEMICAL | ENGINEERING, ENVIRONMENTAL | INTERNAL PHASE EMULSIONS | Bronsted-Lewis acid sites | ONE-POT CELLULOSE | RECYCLABLE CATALYST | TO-HMF CONVERSION | Biomass energy | Cellulose
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Loading RightsJournal of Molecular Catalysis. A, Chemical, ISSN 1381-1169, 01/2015, Volume 396, pp. 216 - 223
A Pd supported on diaminoglyoxime (DAG)-functionalized Fe O (Fe O /DAG/Pd) hybrid materials was fabricated for the first time. In this fabrication, DAG played...
Fe3O4/DAG/Pd | Catalysis | Magnetic nano composite | Recyclable | Suzuki reaction | dag/pd | MESOPOROUS SBA-15 | ACID | MICROSPHERES | ONE-POT SYNTHESIS | CHEMISTRY, PHYSICAL | SOLVOTHERMAL SYNTHESIS | NANO FE3O4 | RECYCLABLE CATALYST | NANOCOMPOSITE | HETEROGENEOUS CATALYST | EFFICIENT
Fe3O4/DAG/Pd | Catalysis | Magnetic nano composite | Recyclable | Suzuki reaction | dag/pd | MESOPOROUS SBA-15 | ACID | MICROSPHERES | ONE-POT SYNTHESIS | CHEMISTRY, PHYSICAL | SOLVOTHERMAL SYNTHESIS | NANO FE3O4 | RECYCLABLE CATALYST | NANOCOMPOSITE | HETEROGENEOUS CATALYST | EFFICIENT
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Loading RightsNew Journal of Chemistry, ISSN 1144-0546, 08/2015, Volume 39, Issue 10, pp. 7988 - 7997
A novel, biodegradable and environmentally benign magnetic porous chitosan-thienyl imine palladium(II) complex, MPCS-TI/Pd, was prepared and characterized by...
ARYL BROMIDES | NANOPARTICLES | COMPLEX | ONE-POT SYNTHESIS | COUPLING REACTIONS | RECYCLABLE CATALYST | IONIC LIQUID | WALLED CARBON NANOTUBES | CHEMISTRY, MULTIDISCIPLINARY | SOLVENT-FREE SYNTHESIS | HETEROGENEOUS CATALYSTS
ARYL BROMIDES | NANOPARTICLES | COMPLEX | ONE-POT SYNTHESIS | COUPLING REACTIONS | RECYCLABLE CATALYST | IONIC LIQUID | WALLED CARBON NANOTUBES | CHEMISTRY, MULTIDISCIPLINARY | SOLVENT-FREE SYNTHESIS | HETEROGENEOUS CATALYSTS
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Loading RightsJournal of the American Chemical Society, ISSN 0002-7863, 08/2004, Volume 126, Issue 30, pp. 9318 - 9325
The design, synthesis, stability, and catalytic activity of nitro-substituted Hoveyda−Grubbs metathesis catalysts are described. The highly active and stable...
ALKYLIDENE | COMPLEX | RING-CLOSING METATHESIS | VINYL SULFONES | ACRYLONITRILE | OLEFIN CROSS-METATHESIS | RECYCLABLE CATALYST | OXIDES | CHIRAL SHIFT-REAGENTS | EFFICIENT | CHEMISTRY, MULTIDISCIPLINARY | Chemical reactions | Ruthenium | Research | Carbides | Electric properties
ALKYLIDENE | COMPLEX | RING-CLOSING METATHESIS | VINYL SULFONES | ACRYLONITRILE | OLEFIN CROSS-METATHESIS | RECYCLABLE CATALYST | OXIDES | CHIRAL SHIFT-REAGENTS | EFFICIENT | CHEMISTRY, MULTIDISCIPLINARY | Chemical reactions | Ruthenium | Research | Carbides | Electric properties
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Loading RightsInorganica Chimica Acta, ISSN 0020-1693, 09/2014, Volume 421, pp. 433 - 438
A new bis pyridine palladium complex was prepared and successfully applied in Suzuki–Miyaura coupling reaction in water. In this article, palladium complex of...
Water | Suzuki–Miyaura | Palladium catalyst | Carbon–carbon bond | Phosphane free | IONIC LIQUID IL-OPPH2 | ORGANIC-SYNTHESIS | SUPPORTED PALLADIUM | HECK REACTIONS | Carbon-carbon bond | ARYLBORONIC ACIDS | HIGHLY EFFICIENT | CHEMISTRY, INORGANIC & NUCLEAR | MAGNETICALLY RECOVERABLE CATALYST | OXIME PALLADACYCLE | RECYCLABLE CATALYST | Suzuki-Miyaura | ARYL CHLORIDES | Palladium catalysts | Cytokinins | Palladium | Pyridine | Chemical plants | Benzene | Acetates
Water | Suzuki–Miyaura | Palladium catalyst | Carbon–carbon bond | Phosphane free | IONIC LIQUID IL-OPPH2 | ORGANIC-SYNTHESIS | SUPPORTED PALLADIUM | HECK REACTIONS | Carbon-carbon bond | ARYLBORONIC ACIDS | HIGHLY EFFICIENT | CHEMISTRY, INORGANIC & NUCLEAR | MAGNETICALLY RECOVERABLE CATALYST | OXIME PALLADACYCLE | RECYCLABLE CATALYST | Suzuki-Miyaura | ARYL CHLORIDES | Palladium catalysts | Cytokinins | Palladium | Pyridine | Chemical plants | Benzene | Acetates
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Loading RightsRSC Advances, ISSN 2046-2069, 2015, Volume 5, Issue 87, pp. 71297 - 71305
A highly water-dispersible palladium nanocatalyst was fabricated by the immobilization of Pd onto the surface of PEGylated imidazolium based phosphinite ionic...
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Loading RightsCatalysis Communications, ISSN 1566-7367, 03/2016, Volume 77, pp. 1 - 4
In this paper, an N-heterocyclic carbene–cobalt complex (NHC–Co ) was immobilized onto the surface of multi-walled carbon nanotubes (MWCNTs) via direct...
Mizoroki–Heck | MWCNTs | NHC ligand | Heterogonous catalyst | Mizoroki-Heck | COMPLEX | CHEMISTRY, PHYSICAL | ALKYL-HALIDES | FUNCTIONALIZATION | NANOPARTICLES | CROSS-COUPLING REACTIONS | REINFORCEMENT | RECYCLABLE CATALYST | LIGAND | HETEROGENEOUS CATALYST | Palladium catalysts | Substitution reactions | Heterocyclic compounds | Cobalt | Analysis | Nanotubes
Mizoroki–Heck | MWCNTs | NHC ligand | Heterogonous catalyst | Mizoroki-Heck | COMPLEX | CHEMISTRY, PHYSICAL | ALKYL-HALIDES | FUNCTIONALIZATION | NANOPARTICLES | CROSS-COUPLING REACTIONS | REINFORCEMENT | RECYCLABLE CATALYST | LIGAND | HETEROGENEOUS CATALYST | Palladium catalysts | Substitution reactions | Heterocyclic compounds | Cobalt | Analysis | Nanotubes
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Loading RightsACS Combinatorial Science, ISSN 2156-8952, 11/2013, Volume 15, Issue 11, pp. 557 - 563
An efficient one-pot synthesis of functionalized 2-amino-4H-pyrans by a meglumine-catalyzed three-component reaction has been developed. A broad range of...
functionalized 2-amino-4 H -pyrans | meglumine | three-component reaction | functionalized 2-amino-4H-pyrans | one-pot synthesis | CHEMISTRY, MEDICINAL | ACID | AQUEOUS-MEDIA | MAGNETICALLY SEPARABLE CATALYST | IONIC LIQUID | CHEMISTRY, MULTIDISCIPLINARY | MULTICOMPONENT REACTIONS | VERSATILE CATALYST | GREEN SYNTHESIS | RECYCLABLE CATALYST | SUBSTITUTED 4H-CHROMENES | CHEMISTRY, APPLIED | DERIVATIVES | Pyrans - chemical synthesis | Molecular Structure | Combinatorial Chemistry Techniques | Catalysis | Meglumine - chemistry | Pyrans - chemistry | Activated | Construction | Synthesis | Aromatic compounds | Condensing | Libraries | Derivatives | Combinatorial analysis
functionalized 2-amino-4 H -pyrans | meglumine | three-component reaction | functionalized 2-amino-4H-pyrans | one-pot synthesis | CHEMISTRY, MEDICINAL | ACID | AQUEOUS-MEDIA | MAGNETICALLY SEPARABLE CATALYST | IONIC LIQUID | CHEMISTRY, MULTIDISCIPLINARY | MULTICOMPONENT REACTIONS | VERSATILE CATALYST | GREEN SYNTHESIS | RECYCLABLE CATALYST | SUBSTITUTED 4H-CHROMENES | CHEMISTRY, APPLIED | DERIVATIVES | Pyrans - chemical synthesis | Molecular Structure | Combinatorial Chemistry Techniques | Catalysis | Meglumine - chemistry | Pyrans - chemistry | Activated | Construction | Synthesis | Aromatic compounds | Condensing | Libraries | Derivatives | Combinatorial analysis
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