| Nome |
# |
|
CoAPO5 as a water oxidation catalyst and a light sensitizer, file e384c42e-1964-d4b2-e053-9f05fe0a1d67
|
721
|
|
A new method for studying activity and reaction kinetics of photocatalytic water oxidation systems using a bubbling reactor, file e384c42f-033a-d4b2-e053-9f05fe0a1d67
|
494
|
|
CoAPO5 as a water oxidation catalyst and a light sensitizer, file e384c42e-1965-d4b2-e053-9f05fe0a1d67
|
369
|
|
Nanomaterials for the abatement of pharmaceuticals and personal care products from wastewater, file e384c42f-f1bb-d4b2-e053-9f05fe0a1d67
|
256
|
|
Spin-Coated vs. Electrodeposited Mn Oxide Films as Water Oxidation Catalysts, file e384c42e-d402-d4b2-e053-9f05fe0a1d67
|
253
|
|
Probing gas adsorption in zeolites by variable-temperature IR spectroscopy: An overview of current research, file e384c42f-d44b-d4b2-e053-9f05fe0a1d67
|
246
|
|
Pure and Fe-doped mesoporous titania catalyse the oxidation of acid orange 7 by H2O2 under different illumination conditions: Fe doping improves photocatalytic activity under simulated solar light, file e384c42f-d44c-d4b2-e053-9f05fe0a1d67
|
241
|
|
Spin-Coated vs. Electrodeposited Mn Oxide Films as Water Oxidation Catalysts, file e384c42e-d403-d4b2-e053-9f05fe0a1d67
|
234
|
|
Photodarkening in optical fibres: comparative study of photo-induced defects using different photon sources, file e384c42e-2cfc-d4b2-e053-9f05fe0a1d67
|
181
|
|
Pure and Fe-doped CeO2 nanoparticles obtained by microwave assisted combustion synthesis: Physico-chemical properties ruling their catalytic activity towards CO oxidation and soot combustion, file e384c432-1cf4-d4b2-e053-9f05fe0a1d67
|
171
|
|
MANGANESE OXIDES PURE CATALYSTS SYNTHESIZED WITH SOLUTION COMBUSTION SYNTHESIS FOR LT NH3-SCR, file e384c42e-abf5-d4b2-e053-9f05fe0a1d67
|
125
|
|
Removal of Agrochemicals from Waters by Adsorption: A Critical Comparison among Humic-Like Substances, Zeolites, Porous Oxides, and Magnetic Nanocomposites, file e384c431-80ea-d4b2-e053-9f05fe0a1d67
|
46
|
|
SO2 deactivation mechanism of NO oxidation and regeneration of the LaCoO3 perovskite, file e384c432-18a3-d4b2-e053-9f05fe0a1d67
|
40
|
|
Effects of the Brookite Phase on the Properties of Different Nanostructured TiO2 Phases Photocatalytically Active Towards the Degradation of N-Phenylurea, file e384c432-b4dd-d4b2-e053-9f05fe0a1d67
|
35
|
|
Application of Reverse Micelle Sol–Gel Synthesis for Bulk Doping and Heteroatoms Surface Enrichment in Mo-Doped TiO2 Nanoparticles, file e384c431-25da-d4b2-e053-9f05fe0a1d67
|
26
|
|
Effect of the preparation technique of Cu-ZSM-5 catalysts on the isothermal oscillatory behavior of nitrous oxide decomposition, file e384c432-6cc6-d4b2-e053-9f05fe0a1d67
|
26
|
|
Separation of biological entities from human blood by using magnetic nanocomposites obtained from zeolite precursors, file e384c432-0e28-d4b2-e053-9f05fe0a1d67
|
25
|
|
Magnetic behavior of Ni nanoparticles and Ni2+ ions in weakly loaded zeolitic structures, file e384c431-5b98-d4b2-e053-9f05fe0a1d67
|
22
|
|
Visible Light-Driven Photocatalytic Activity and Kinetics of Fe-Doped TiO2 Prepared by a Three-Block Copolymer Templating Approach, file e384c433-cd9e-d4b2-e053-9f05fe0a1d67
|
18
|
|
Brookite, a sometimes under evaluated TiO2polymorph, file e384c434-641b-d4b2-e053-9f05fe0a1d67
|
17
|
|
Near UV-Irradiation of CuOx-Impregnated TiO2 Providing Active Species for H2 Production Through Methanol Photoreforming, file e384c431-5197-d4b2-e053-9f05fe0a1d67
|
16
|
|
Active and stable ceria-zirconia supported molybdenum oxide catalysts for cyclooctene epoxidation: Effect of the preparation procedure, file e384c432-106a-d4b2-e053-9f05fe0a1d67
|
16
|
|
Effective Inclusion of Sizable Amounts of Mo within TiO2 Nanoparticles Can Be Obtained by Reverse Micelle Sol-Gel Synthesis, file e384c433-1a49-d4b2-e053-9f05fe0a1d67
|
16
|
|
Unraveling the effect of ZrO2 modifiers on the nature of active sites on AuRu/ZrO2 catalysts for furfural hydrogenation, file e384c432-12b5-d4b2-e053-9f05fe0a1d67
|
13
|
|
Reverse Micelle Strategy for the Synthesis of MnOx–TiO2 Active Catalysts for NH3-Selective Catalytic Reduction of NOx at Both Low Temperature and Low Mn Content, file e384c434-406f-d4b2-e053-9f05fe0a1d67
|
13
|
|
Photoreduction of nitrates from waste and drinking water, file e384c431-9d9e-d4b2-e053-9f05fe0a1d67
|
12
|
|
Undoped and Fe-Doped Anatase/Brookite TiO2 Mixed Phases, Obtained by a Simple Template-Free Synthesis Method: Physico-Chemical Characterization and Photocatalytic Activity towards Simazine Degradation, file 47ff309c-6b81-4009-9148-25ebc8870002
|
11
|
|
Microwave-Assisted Protocol for Green Functionalization of Thiophenes With a Pd/β-Cyclodextrin Cross-Linked Nanocatalyst, file e384c432-0e26-d4b2-e053-9f05fe0a1d67
|
11
|
|
Molar Entropy and Enthalpy of CO Adsorbed in Zeolites as Derived from VTIR Data: Role of Intermolecular Modes, file e384c432-e8dd-d4b2-e053-9f05fe0a1d67
|
11
|
|
Microwave-Assisted Protocol for Green Functionalization of Thiophenes With a Pd/β-Cyclodextrin Cross-Linked Nanocatalyst, file e384c431-e2aa-d4b2-e053-9f05fe0a1d67
|
9
|
|
Photocatalytic Denitrification of Nitrate Using Fe-TiO2-Coated Clay Filters, file bed315d5-5f1f-45e9-a12b-c2adfa66e65d
|
8
|
|
Microwave, ultrasound, and mechanochemistry: Unconventional tools that are used to obtain “smart” catalysts for CO2 hydrogenation, file e384c431-9e5c-d4b2-e053-9f05fe0a1d67
|
8
|
|
Microwave, ultrasound, and mechanochemistry: Unconventional tools that are used to obtain “smart” catalysts for CO2 hydrogenation, file e384c431-9d9b-d4b2-e053-9f05fe0a1d67
|
7
|
|
Hybrid organic-inorganic nanotubes effectively adsorb some organic pollutants in aqueous phase, file e384c431-abe6-d4b2-e053-9f05fe0a1d67
|
7
|
|
SO2 deactivation mechanism of NO oxidation and regeneration of the LaCoO3 perovskite, file e384c433-b670-d4b2-e053-9f05fe0a1d67
|
7
|
|
Bi2O3 immobilized 3D structured clay filters for solar photocatalytic treatment of wastewater from batch to scaleup reactors, file e384c434-a942-d4b2-e053-9f05fe0a1d67
|
7
|
|
Magnetic behavior of Ni nanoparticles and Ni2+ ions in weakly loaded zeolitic structures, file e384c431-5ac5-d4b2-e053-9f05fe0a1d67
|
6
|
|
Unraveling the effect of ZrO2 modifiers on the nature of active sites on AuRu/ZrO2 catalysts for furfural hydrogenation, file e384c431-e3fa-d4b2-e053-9f05fe0a1d67
|
6
|
|
Simultaneous improvement of ammonia mediated NOx SCR and soot oxidation for enhanced SCR-on-Filter application, file e384c433-db31-d4b2-e053-9f05fe0a1d67
|
6
|
|
Reactions of Acid Orange 7 with Iron Nanoparticles in Aqueous Solutions, file e384c42e-9f0d-d4b2-e053-9f05fe0a1d67
|
5
|
|
Effect of the preparation technique of Cu-ZSM-5 catalysts on the isothermal oscillatory behavior of nitrous oxide decomposition, file e384c432-876c-d4b2-e053-9f05fe0a1d67
|
5
|
|
Suitability of nanoparticles to face benzo(A)pyrene-induced genetic and chromosomal damage in m. galloprovincialis. an in vitro approach, file e384c434-6a7c-d4b2-e053-9f05fe0a1d67
|
5
|
|
Nanoparticles of CoAPO-5: synthesis and comparison with microcrystalline samples, file e384c434-7dd4-d4b2-e053-9f05fe0a1d67
|
5
|
|
Solid-state ion exchange of Fe in small pore SSZ-13 zeolite: Characterization of the exchanged species and their relevance for the NOx SCR reaction, file 66c36f3d-f894-44ea-b1bb-8325f0bf1609
|
4
|
|
Hybrid organic-inorganic nanotubes effectively adsorb some organic pollutants in aqueous phase, file e384c431-c413-d4b2-e053-9f05fe0a1d67
|
4
|
|
Composite Cu-SSZ-13 and CeO2-SnO2 for enhanced NH3-SCR resistance towards hydrocarbon deactivation, file e384c432-e4df-d4b2-e053-9f05fe0a1d67
|
4
|
|
Study of hydrogen physisorption on nanoporous carbon materials of different origin, file e384c42e-9b3e-d4b2-e053-9f05fe0a1d67
|
3
|
|
Simulated Moon Agglutinates Obtained from Zeolite Precursor by Means of a Low-Cost and Scalable Synthesis Method, file e384c430-c1eb-d4b2-e053-9f05fe0a1d67
|
3
|
|
Magnetic behavior of Ni nanoparticles and Ni2+ ions in weakly loaded zeolitic structures, file e384c431-5b95-d4b2-e053-9f05fe0a1d67
|
3
|
|
Electrochemical Measurements as Screening Method for Water Oxidation Catalyst, file e384c432-258b-d4b2-e053-9f05fe0a1d67
|
3
|
|
Reverse Micelle Strategy for the Synthesis of MnOx–TiO2 Active Catalysts for NH3-Selective Catalytic Reduction of NOx at Both Low Temperature and Low Mn Content, file e384c433-aa1b-d4b2-e053-9f05fe0a1d67
|
3
|
|
Imogolite: A nanotubular aluminosilicate: Synthesis, derivatives, analogues, and general and biological applications, file e384c434-85f2-d4b2-e053-9f05fe0a1d67
|
3
|
|
Physicochemical properties and redox behaviour of Fe-doped hybrid nanotubes of the imogolite type and their rGO nanocomposites, file 38a546f4-0b86-4a9e-9cad-21b2b90122aa
|
2
|
|
Photocatalytic Degradation of Crystal Violet dye under Visible Light by Fe-Doped TiO2 Prepared by Reverse-Micelle Sol–Gel Method, file 9d9fedf1-b41a-41f6-bdc4-ea14a7e5272e
|
2
|
|
Caratterizzazione chimico-fisica e morfologica di sospensioni di ferro nanoscopico per la bonifica di falde contaminate, file e384c42d-fcdd-d4b2-e053-9f05fe0a1d67
|
2
|
|
Mesostructured SBA-3 silica containing Reichardt’s dye as an optical ammonia sensor, file e384c42e-0203-d4b2-e053-9f05fe0a1d67
|
2
|
|
Study of surface acidity of TiO2/SiO2 catalysts by means of FTIR measurements of CO and NH3 adsorption, file e384c42e-070a-d4b2-e053-9f05fe0a1d67
|
2
|
|
Imogolite: An Aluminosilicate Nanotube Endowed with Low Cytotoxicity and Genotoxicity, file e384c42e-9c29-d4b2-e053-9f05fe0a1d67
|
2
|
|
Hematite nanoparticles larger than 90 nm show no sign of toxicity in terms of lactate dehydrogenase release, nitric oxide generation, apoptosis and comet assay in murine alveolar macrophages and human lung epithelial cells., file e384c42e-9c82-d4b2-e053-9f05fe0a1d67
|
2
|
|
"Synthesis and characterization of hybrid organic/inorganic nanotubes of the imogolite type and their behaviour towards methane adsorption", file e384c42e-a24e-d4b2-e053-9f05fe0a1d67
|
2
|
|
Pure and Fe-doped CeO2 nanoparticles obtained by microwave assisted combustion synthesis: Physico-chemical properties ruling their catalytic activity towards CO oxidation and soot combustion, file e384c42f-7177-d4b2-e053-9f05fe0a1d67
|
2
|
|
Testing Novel Water Oxidation Catalysts for Solar Fuels Production, file e384c431-75b7-d4b2-e053-9f05fe0a1d67
|
2
|
|
Unraveling the effect of ZrO2 modifiers on the nature of active sites on AuRu/ZrO2 catalysts for furfural hydrogenation, file e384c431-d375-d4b2-e053-9f05fe0a1d67
|
2
|
|
Preface, file e384c431-dce2-d4b2-e053-9f05fe0a1d67
|
2
|
|
Sacrificial Oxidants as a Means to Study the Catalytic Activity of Water Oxidation Catalysts, file e384c432-12ad-d4b2-e053-9f05fe0a1d67
|
2
|
|
Conclusions, file e384c432-1563-d4b2-e053-9f05fe0a1d67
|
2
|
|
Use of the Bubbling Reactor with the Ru(bpy)23/S2O28 Photosystem for Measuring the Rate of Water Oxidation as Promoted by Different Manganese Oxides, file e384c432-2585-d4b2-e053-9f05fe0a1d67
|
2
|
|
SO2 deactivation mechanism of NO oxidation and regeneration of the LaCoO3 perovskite, file e384c432-546f-d4b2-e053-9f05fe0a1d67
|
2
|
|
Combined photocatalytic degradation of pollutants and inactivation of waterborne pathogens using solar light active α/β-Bi2O3, file e384c432-ea9b-d4b2-e053-9f05fe0a1d67
|
2
|
|
Preparation and Characterization of Magnetic and Porous
Metal-Ceramic Nanocomposites from a Zeolite
Precursor and Their Application for DNA Separation, file e384c433-1222-d4b2-e053-9f05fe0a1d67
|
2
|
|
Transition Metal B-Site Substitutions in {LaAlO}3 Perovskites Reorient Bio-Ethanol Conversion Reactions, file e384c433-3a53-d4b2-e053-9f05fe0a1d67
|
2
|
|
New Insights in the Production of Simulated Moon Agglutinates: The Use of Natural Zeolite-Bearing Rocks, file e384c433-c33a-d4b2-e053-9f05fe0a1d67
|
2
|
|
Unravelling the role of the exchanged Ni amount in zeolites A and X for their thermal transformation into magnetic metal-ceramic nanocomposites, file 367e3090-15a9-4620-8095-30bb1d034d7b
|
1
|
|
Spectroscopic characterisation of the strength and stability of the acidic sites of Al-rich microporous micelle-templated silicates, file e384c42d-e85e-d4b2-e053-9f05fe0a1d67
|
1
|
|
Mixed 1T–2H Phase MoS2/Reduced Graphene Oxide as Active Electrode for Enhanced Supercapacitive Performance, file e384c42f-4c63-d4b2-e053-9f05fe0a1d67
|
1
|
|
Self-Activating Catalyst for Glucose Hydrogenation in the Aqueous Phase under Mild Conditions, file e384c431-17bb-d4b2-e053-9f05fe0a1d67
|
1
|
|
Near UV-Irradiation of CuOx-Impregnated TiO2 Providing Active Species for H2 Production Through Methanol Photoreforming, file e384c431-2db2-d4b2-e053-9f05fe0a1d67
|
1
|
|
Co-doped LaAlO3 perovskite oxide for NOx-assisted soot oxidation, file e384c431-778c-d4b2-e053-9f05fe0a1d67
|
1
|
|
Unraveling the effect of ZrO2 modifiers on the nature of active sites on AuRu/ZrO2 catalysts for furfural hydrogenation, file e384c431-d374-d4b2-e053-9f05fe0a1d67
|
1
|
|
Pure and Fe-doped CeO2 nanoparticles obtained by microwave assisted combustion synthesis: Physico-chemical properties ruling their catalytic activity towards CO oxidation and soot combustion, file e384c431-f4c5-d4b2-e053-9f05fe0a1d67
|
1
|
|
Simultaneous improvement of ammonia mediated NOx SCR and soot oxidation for enhanced SCR-on-Filter application, file e384c432-18a4-d4b2-e053-9f05fe0a1d67
|
1
|
|
Introduction to the Water Splitting Reaction, file e384c432-2587-d4b2-e053-9f05fe0a1d67
|
1
|
|
Steps Towards a Sustainable Hydrogen Production from Sunlight and Water, file e384c432-2589-d4b2-e053-9f05fe0a1d67
|
1
|
|
Scaling Up the Process of Photo-Electrochemical Water Splitting, file e384c432-258d-d4b2-e053-9f05fe0a1d67
|
1
|
|
Combined photocatalytic degradation of pollutants and inactivation of waterborne pathogens using solar light active α/β-Bi2O3, file e384c433-4731-d4b2-e053-9f05fe0a1d67
|
1
|
|
New Insights in the Production of Simulated Moon Agglutinates: The Use of Natural Zeolite-Bearing Rocks, file e384c433-eca6-d4b2-e053-9f05fe0a1d67
|
1
|
|
Magnetic clustering of Ni2+ ions in metal-ceramic nanocomposites obtained from Ni-exchanged zeolite precursors, file e384c434-890b-d4b2-e053-9f05fe0a1d67
|
1
|
|
New Insights into the Role of the Synthesis Procedure on the Performance of Co-Based Catalysts for Ethanol Steam Reforming, file e384c434-91da-d4b2-e053-9f05fe0a1d67
|
1
|
|
The Role of Metallic and Acid Sites of Ru-Nb-Si Catalysts in the Transformation of Levulinic Acid to γ-Valerolactone, file e384c434-9fa2-d4b2-e053-9f05fe0a1d67
|
1
|
|
Beneficial effect of Fe addition on the catalytic activity of electrodeposited MnOx films in the water oxidation reaction, file e384c434-9fdd-d4b2-e053-9f05fe0a1d67
|
1
|
|
The Role of Metallic and Acid Sites of Ru-Nb-Si Catalysts in the Transformation of Levulinic Acid to γ-Valerolactone, file e384c434-a678-d4b2-e053-9f05fe0a1d67
|
1
|
| Totale |
3.845 |
Archivio Istituzionale della Ricerca