All Stories

  1. Hydrogenation of dimethyl oxalate to ethylene glycol on Cu/SiO2 catalysts prepared by a deposition-decomposition method: Optimization of the operating conditions and pre-reduction procedure
  2. Catalysis for e-Chemistry: Need and Gaps for a Future De-Fossilized Chemical Production, with Focus on the Role of Complex (Direct) Syntheses by Electrocatalysis
  3. Dynamics at Polarized Carbon Dioxide–Iron Oxyhydroxide Interfaces Unveil the Origin of Multicarbon Product Formation
  4. Enhanced Catalytic Activity in the Oxidative Synthesis of Benzoxazoles by Tuning Local Electron Charge Densities in N-doped sp3@sp2 Hybrid Nanodiamond
  5. Nanocarbon for Energy Material Applications: N 2 Reduction Reaction
  6. Current density in solar fuel technologies
  7. Reuse of CO2 in energy intensive process industries
  8. Highly selective bifunctional Ni zeo-type catalysts for hydroprocessing of methyl palmitate to green diesel
  9. Chemistry and energy beyond fossil fuels. A perspective view on the role of syngas from waste sources
  10. Elucidating the mechanism of the CO2 methanation reaction over Ni–Fe hydrotalcite-derived catalysts via surface-sensitive in situ XPS and NEXAFS
  11. CO 2 Reduction of Hybrid Cu 2 O–Cu/Gas Diffusion Layer Electrodes and their Integration in a Cu‐based Photoelectrocatalytic Cell
  12. Deactivation mechanism of hydrotalcite-derived Ni–AlOx catalysts during low-temperature CO2 methanation via Ni-hydroxide formation and the role of Fe in limiting this effect
  13. Direct Synthesis of H2O2on Pd Based Catalysts: Modelling the Particle Size Effects and the Promoting Role of Polyvinyl Alcohol
  14. Frontispiece: Waste to Chemicals for a Circular Economy
  15. Waste to Chemicals for a Circular Economy
  16. Catalysis by hybrid sp2/sp3nanodiamonds and their role in the design of advanced nanocarbon materials
  17. Beyond Solar Fuels: Renewable Energy-Driven Chemistry
  18. Effect of the Structure and Mesoporosity in Ni/Zeolite Catalysts for n ‐Hexadecane Hydroisomerisation and Hydrocracking
  19. Looking at the Future of Chemical Production through the European Roadmap on Science and Technology of Catalysis the EU Effort for a Long-term Vision
  20. Waste-to-Chemicals for a Circular Economy: The Case of Urea Production (Waste-to-Urea)
  21. Electrocatalytic Synthesis of Ammonia at Room Temperature and Atmospheric Pressure from Water and Nitrogen on a Carbon-Nanotube-Based Electrocatalyst
  22. Electrocatalytic Synthesis of Ammonia at Room Temperature and Atmospheric Pressure from Water and Nitrogen on a Carbon-Nanotube-Based Electrocatalyst
  23. Grand challenges for catalysis in the Science and Technology Roadmap on Catalysis for Europe: moving ahead for a sustainable future
  24. On the nature of the active sites in the selective oxidative esterification of furfural on Au/ZrO 2 catalysts
  25. Selected papers from the 6th Czech-Italian-Spanish Conference on Molecular Sieves and Catalysis, Amantea, Italy, from June 14th to 17th 2015
  26. Carbon microspheres preparation, graphitization and surface functionalization for glycerol etherification
  27. Pd Supported on Carbon Nitride Boosts the Direct Hydrogen Peroxide Synthesis
  28. Synthesis, Characterization, and Activity Pattern of Ni–Al Hydrotalcite Catalysts in CO 2 Methanation
  29. Nanoscale Engineering in the Development of Photoelectrocatalytic Cells for Producing Solar Fuels
  30. Role of size and pretreatment of Pd particles on their behaviour in the direct synthesis of H2O2
  31. A Vision for Future Biorefineries
  32. Advanced nanostructured titania photoactive materials for sustainable H2 production
  33. Functional nano-textured titania-coatings with self-cleaning and antireflective properties for photovoltaic surfaces
  34. HMF etherification using NH4-exchanged zeolites
  35. Electrolyte-less design of PEC cells for solar fuels: Prospects and open issues in the development of cells and related catalytic electrodes
  36. Electrochemical behaviour of naked sub-nanometre sized copper clusters and effect of CO2
  37. High-Throughput Screening of Heterogeneous Catalysts for the Conversion of Furfural to Bio-Based Fuel Components
  38. Turning Perspective in Photoelectrocatalytic Cells for Solar Fuels
  39. Enhanced Hydrogen Transport over Palladium Ultrathin Films through Surface Nanostructure Engineering
  40. Solar Production of Fuels from Water and CO2: Perspectives and Opportunities for a Sustainable Use of Renewable Energy
  41. The energy-chemistry nexus: A vision of the future from sustainability perspective
  42. Onion-Like Graphene Carbon Nanospheres as Stable Catalysts for Carbon Monoxide and Methane Chlorination
  43. New Sustainable Model of Biorefineries: Biofactories and Challenges of Integrating Bio- and Solar Refineries
  44. Use of modified anodization procedures to prepare advanced TiO2 nanostructured catalytic electrodes and thin film materials
  45. Catalysis for Biomass and CO2 Use Through Solar Energy: Opening New Scenarios for a Sustainable and LowCarbon Chemical
  46. Monitoring of glucose in fermentation processes by using Au/TiO2 composites as novel modified electrodes
  47. CO2 capture and reduction to liquid fuels in a novel electrochemical setup by using metal-doped conjugated microporous polymers
  48. Energy-related catalysis
  49. Status of Research and Challenges in Converting Natural Gas
  50. Chemical Energy Conversion as Enabling Factor to Move to a Renewable Energy Economy
  51. Reduction of Greenhouse Gas Emissions by Catalytic Processes
  52. Evolving scenarios for biorefineries and the impact on catalysis
  53. Nanocarbons: Opening New Possibilities for Nano-engineered Novel Catalysts and Catalytic Electrodes
  54. ChemInform Abstract: A New Scenario for Green & Sustainable Chemical Production
  55. A gas-phase reactor powered by solar energy and ethanol for H2 production
  56. Advanced Oxidation Processes in Water Treatment
  57. ChemInform Abstract: CO2Recycling: A Key Strategy to Introduce Green Energy in the Chemical Production Chain
  58. Carbon-based catalysts: Opening new scenario to develop next-generation nano-engineered catalytic materials
  59. Low-temperature graphitization of amorphous carbon nanospheres
  60. A New Scenario for Green & Sustainable Chemical Production
  61. Artificial Leaves
  62. Trading Renewable Energy by using CO2 : An Effective Option to Mitigate Climate Change and Increase the use of Renewable Energy Sources
  63. CO2Recycling: A Key Strategy to Introduce Green Energy in the Chemical Production Chain
  64. Green Carbon Dioxide
  65. 16. Advanced photocatalytic materials by nanocarbon hybrid materials
  66. Perspectives and State of the Art in Producing Solar Fuels and Chemicals from CO2
  67. Electrocatalytic conversion of CO2 on carbon nanotube-based electrodes for producing solar fuels
  68. Dynamics of Palladium on Nanocarbon in the Direct Synthesis of H2O2
  69. Photoelectrochemical properties of doped lanthanum orthoferrites
  70. ChemInform Abstract: Nanocarbons for the Development of Advanced Catalysts
  71. Nanocarbons for the Development of Advanced Catalysts
  72. On the Nature of Selective Palladium-Based Nanoparticles on Nitrogen-Doped Carbon Nanotubes for the Direct Synthesis of H2O2
  73. Preface
  74. Electrocatalytic conversion of CO2 to liquid fuels using nanocarbon-based electrodes
  75. Catalysis for CO2 conversion: a key technology for rapid introduction of renewable energy in the value chain of chemical industries
  76. H2 production by selective photo-dehydrogenation of ethanol in gas and liquid phase on CuOx/TiO2 nanocomposites
  77. New Energy Sources and CO2 Treatment
  78. Catalytic Transformation of CO2 to Fuels and Chemicals, with Reference to Biorefineries
  79. The use of a solar photoelectrochemical reactor for sustainable production of energy
  80. Catalysis on nano-carbon materials: Going where to?
  81. Towards Artificial Leaves for Solar Hydrogen and Fuels from Carbon Dioxide
  82. New Insights from Microcalorimetry on the FeOx/CNT-Based Electrocatalysts Active in the Conversion of CO2 to Fuels
  83. Anodically Formed TiO2 Thin Films: Evidence for a Multiparameter Dependent Photocurrent-Structure Relationship
  84. Introduction and General Overview
  85. Reduction of Greenhouse Gas Emissions by Catalytic Processes
  86. Deactivation mechanism of Pd supported on ordered and non-ordered mesoporous silica in the direct H2O2 synthesis using CO2-expanded methanol
  87. Direct conversion of cellulose to glucose and valuable intermediates in mild reaction conditions over solid acid catalysts
  88. Etherification of 5-hydroxymethyl-2-furfural (HMF) with ethanol to biodiesel components using mesoporous solid acidic catalysts
  89. Nanostructured Titania Thin Films for Solar Use in Energy Applications
  90. Carbon Dioxide Recycling: Emerging Large-Scale Technologies with Industrial Potential
  91. Can We Afford to Waste Carbon Dioxide? Carbon Dioxide as a Valuable Source of Carbon for the Production of Light Olefins
  92. Synthesis and performance of platinum supported on ordered mesoporous carbons as catalyst for PEM fuel cells: Effect of the surface chemistry of the support
  93. Creating and mastering nano-objects to design advanced catalytic materials
  94. SBA-15 as a support for palladium in the direct synthesis of H2O2 from H2 and O2
  95. Performances of Pd Nanoparticles on Different Supports in the Direct Synthesis of H2O2 in CO2-Expanded Methanol
  96. Carbon Nanotubes for Sustainable Energy Applications
  97. Analysis of the alternative routes in the catalytic transformation of lignocellulosic materials
  98. Facing the Energy Challenges through Chemistry in a Changing World
  99. CO2-based energy vectors for the storage of solar energy
  100. Corrigendum to “Pd nanoparticles supported on N-doped nanocarbon for the direct synthesis of H2O2 from H2 and O2” [Catal. Today 157 (2010) 280–285]
  101. Recent Developments in Gas-to-Liquid Conversion and Opportunities for Advanced Nanoporous Materials
  102. Nanostructured Electrodes and Devices for Converting Carbon Dioxide Back to Fuels: Advances and Perspectives
  103. The influence of the nanostructure on the effect of CO2 on the properties of Pd–Ag thin-film for H2 separation
  104. WITHDRAWN: Corrigendum to “Pd nanoparticles supported on N-doped nanocarbon for the direct synthesis of H2O2 from H2 and O2” [Catalysis Today 157 (1–4) (2010) 280–285]
  105. Synthesis, Characterization and Sensing Applications of Nanotubular TiO2-Based Materials
  106. Pd nanoparticles supported on N-doped nanocarbon for the direct synthesis of H2O2 from H2 and O2
  107. ChemInform Abstract: Oxidation Catalysts: New Trends
  108. Environmental Catalysis over Zeolites
  109. Pd–Ag thin film membrane for H2 separation. Part 2. Carbon and oxygen diffusion in the presence of CO/CO2 in the feed and effect on the H2 permeability
  110. Towards Solar Fuels from Water and CO2
  111. Preface
  112. Problems and perspectives in nanostructured carbon-based electrodes for clean and sustainable energy
  113. Synthesis of solar fuels by a novel photoelectrocatalytic approach
  114. Catalytic Wastewater Treatment Using Pillared Clays
  115. Hydrogen Sensing Capability of Nanostructured Titania Films
  116. Opportunities and prospects in the chemical recycling of carbon dioxide to fuels
  117. Sustainable Industrial Chemistry
  118. The role of mechanically induced defects in carbon nanotubes to modify the properties of electrodes for PEM fuel cell
  119. The Role of Nanostructure in Improving the Performance of Electrodes for Energy Storage and Conversion
  120. Performances and stability of a Pd-based supported thin film membrane prepared by EPD with a novel seeding procedure. Part 1—Behaviour in H2:N2 mixtures☆
  121. Effect of the support properties on the preparation and performance of platinum catalysts supported on carbon nanofibers
  122. One-step H2O2 and phenol syntheses: Examples of challenges for new sustainable selective oxidation processes☆
  123. Fe and Pt carbon nanotubes for the electrocatalytic conversion of carbon dioxide to oxygenates
  124. Catalysis: Role and Challenges for a Sustainable Energy
  125. ChemInform Abstract: Environmental Catalysis: A Push to the Development of New Catalytic Materials
  126. Catalysis, a driver for sustainability and societal challenges
  127. Synthesis of TiO2 Thin Films: Relationship Between Preparation Conditions and Nanostructure
  128. Efficient Simultaneous Dry Removal of SO2 and NOx from Flue Gas over Copper-Based Catalytic Materials
  129. Catalysis by layered materials: A review
  130. ChemInform Abstract: Nano-Architecture and Reactivity of Titania Catalytic Materials. Quasi-1D Nanostructures.
  131. Copper-pillared clays (Cu-PILC) for agro-food wastewater purification with H2O2
  132. Oxidation intermediates and reaction pathways of wet hydrogen peroxide oxidation of p-coumaric acid over (Al-Fe)PILC catalyst
  133. Nanostructured electrocatalytic Pt-carbon materials for fuel cells and CO2 conversion
  134. Behaviour of SOx-traps derived from ternary Cu/Mg/Al hydrotalcite materials
  135. Bioethanol: Production and Pathways for Upgrading and Valorization
  136. Wet hydrogen peroxide catalytic oxidation of olive oil mill wastewaters using Cu-zeolite and Cu-pillared clay catalysts
  137. Photoactive titania nanostructured thin films: Synthesis and characteristics of ordered helical nanocoil array
  138. Synthesis and characterization of Co-containing SBA-15 catalysts
  139. Electrocatalytic conversion of CO2 to long carbon-chain hydrocarbons
  140. Oxide thin films based on ordered arrays of 1D nanostructure. A possible approach toward bridging material gap in catalysis
  141. Performances of SOx traps derived from Cu/Al hydrotalcite for the protection of NOx traps from the deactivation by sulphur
  142. Copper- and iron-pillared clay catalysts for the WHPCO of model and real wastewater streams from olive oil milling production
  143. Activity and stability of (Al-Fe) pillared montmorillonite catalysts for wet hydrogen peroxide oxidation of p-coumaric acid
  144. Chapter 1 Introduction: State of the art in the development of catalytic processes for the selective catalytic reduction of NOx into N2
  145. Cu-MOF: a new highly active catalyst for WHPCO of waste water from agro-food production
  146. Nature of corona in TiO2@SBA15-like mesoporous nanocomposite
  147. Synthesis and performances of carbon-supported noble metal nanoclusters as electrodes for polymer electrolyte membrane fuel cells
  148. Homogeneous versus heterogeneous catalytic reactions to eliminate organics from waste water using H2O2
  149. Performances, characteristics and stability of catalytic membranes based on a thin Pd film on a ceramic support for H2O2 direct synthesis
  150. Enhanced stability of catalytic membranes based on a porous thin Pd film on a ceramic support by forming a Pd–Ag interlayer
  151. Performances of Pd-Me (Me=Ag, Pt) catalysts in the direct synthesis of H2O2 on catalytic membranes
  152. The issue of selectivity in the direct synthesis of H2O2 from H2 and O2: the role of the catalyst in relation to the kinetics of reaction
  153. Characterization and reactivity of Fe-[Al,B]MFI catalysts for benzene hydroxylation with N2O
  154. Heterogeneous Catalytic Reactions with CO2: Status and Perspectives
  155. Use of Solid Catalysts in Promoting Water Treatment and Remediation Technologies
  156. Dynamics of SO2 adsorption–oxidation in SOx traps for the protection of NOx adsorbers in diesel engine emissions
  157. Use of mesoporous SBA-15 for nanostructuring titania for photocatalytic applications
  158. Direct synthesis of H2O2 on monometallic and bimetallic catalytic membranes using methanol as reaction medium
  159. Performances of Fe-[Al, B]MFI catalysts in benzene hydroxylation with N2O
  160. Palladium-modified catalytic membranes for the direct synthesis of HO: preparation and performance in aqueous solution
  161. Selective Catalytic Reduction (SCR) Processes on Metal Oxides
  162. Preparation, performances and reaction mechanism for the synthesis of H2O2 from H2 and O2 based on palladium membranes
  163. Electrocatalytic performances of nanostructured platinum–carbon materials
  164. Wet hydrogen peroxide catalytic oxidation (WHPCO) of organic waste in agro-food and industrial streams
  165. Use of solid catalysts in promoting water treatment and remediation technologies
  166. Performances of Co-based catalysts for the selective side chain oxidation of toluene in the gas phase
  167. Preface
  168. Performance of Fe-BEA catalysts for the selective hydroxylation of benzene with N2O
  169. Heterogeneous Catalytic Reactions with CO2: Status and Perspectives
  170. Isomorphously substituted Fe-ZSM-5 zeolites as catalysts Causes of catalyst ageing as revealed by X-band EPR, Mössbauer and 29Si MAS NMR spectra
  171. Nanostructured catalysts for NO x storage–reduction and N 2 O decomposition
  172. Novel catalyst design for multiphase reactions
  173. Tubular Inorganic catalytic membrane reactors: advantages and performance in multiphase hydrogenation reactions
  174. Remediation of water contamination using catalytic technologies
  175. Reduction of greenhouse gas emissions by catalytic processes
  176. Catalysis and sustainable (green) chemistry
  177. 58 Gas-phase electrocatalytic conversion of CO2 to fuels over gas diffusion membranes containing Pt or Pd nanoclusters
  178. Outlooks for environmental catalysis
  179. Catalytic conversion of MTBE to biodegradable chemicals in contaminated water
  180. Environmental catalysis: trends and outlook
  181. Reaction Mechanism and Control of Selectivity in Catalysis by Oxides: Some Challenges and Open Questions
  182. Outlooks for selective oxidation
  183. In situ DRIFT study of the reactivity and reaction mechanism of catalysts based on iron–molybdenum oxides encapsulated in Boralite for the selective oxidation of alkylaromatics
  184. Oscillating Behavior in N2O Decomposition over Rh Supported on Zirconia-Based Catalysts: The Role of the Reaction Conditions
  185. In situ activation phenomena of Rh supported on zirconia samples for the catalytic decomposition of N2O
  186. Rinse water purification using solid regenerable catalytic adsorbents
  187. Catalytic wet oxidation with H2O2 of carboxylic acids on homogeneous and heterogeneous Fenton-type catalysts
  188. Use of palladium based catalysts in the hydrogenation of nitrates in drinking water: from powders to membranes
  189. Oxidation catalysts: New trends
  190. Modification of the surface reactivity and selectivity of mixed oxides in oxidation reactions due to coadsorbate species
  191. The Role of Ammonia Adspecies on the Pathways of Catalytic Transformation at Mixed Metal Oxide Surfaces
  192. Dependence of the catalytic behavior of V—Sb-oxides in propane ammoxidation to acrylonitrile from the method of preparation
  193. VSb-oxide catalysts for the ammoxidation of propane
  194. Role of the Size and Texture Properties of Copper-on-Alumina Pellets during the Simultaneous Removal of SO 2 and NO x from Flue Gas
  195. Structure, activity and selectivity relationships in propane ammoxidation to acrylonitrile on V–Sb oxides Part 3Modifications during the catalytic reaction and effect of feed composition
  196. Surface chemistry of V–Sb–oxide in relation to the mechanism of acrylonitrile synthesis from propane Part 3.—Influence of ammonia on the competitive pathways of reaction
  197. Reaction pathways of propane and propene conversion in the presence of NO and O2 on Cu/MFI
  198. Surface chemistry of V–Sb–oxide in relation to the mechanism of acrylonitrile synthesis from propane. Part 1.—Chemisorption and transformation of possible intermediates
  199. Surface chemistry of V–Sb–oxide in relation to the mechanism of acrylonitrile synthesis from propane. Part 2.—Reactivity towards ammonia and relationship with catalytic behaviour
  200. Modification of the surface reactivity of Cu-MFI during chemisorption and transformation of the reagents in the selective reduction of NO with propane and O2
  201. Catalytic behavior and nature of active sites in copper-on-zirconia catalysts for the decomposition of N2O
  202. Nature of active species in copper-based catalysts and their chemistry of transformation of nitrogen oxides
  203. Modification of the surface reactivity of vanadium antimonate catalysts during catalytic propane ammoxidation
  204. Adsorption and Reactivity of No on Copper-on-Alumina Catalysts
  205. Adsorption and Reactivity of No on Copper-on-Alumina Catalysts
  206. Role of the preparation and nature of zeolite on the activity of Cu-exchanged MFI for no conversion by hydrocarbons and oxygen
  207. Influence of preparation method on the properties of V-Sb-O catalysts for the ammoxidation of propane
  208. High activity of copper-boralite in the reduction of nitric oxide with propane / oxygen
  209. Specific activity of copper species in decomposition of NO on Cu-ZSM-5
  210. Deactivation Effects in the Synthesis of Methyl Ethyl Ketone by Selective Oxidation over Solid Wacker-type Catalysts
  211. Acrylonitrile from Propane on (VO)2P2O7 with Preadsorbed Ammonia
  212. Selective Catalytic Reduction of no on Copper-On-Alumina in the Cleanup of High Sulfur Content Flue Gas: Catalyst Development and Design
  213. Combined DeSOx/DeNOx reactions on a copper on alumina sorbent-catalyst. 1. Mechanism of sulfur dioxide oxidation-adsorption
  214. Combined DeSOx/DeNOx reactions on a copper on alumina sorbent-catalyst. 2. Kinetics of the DeSOx reaction
  215. Combined DeSOx/DeNOx reactions on a copper on alumina sorbent-catalyst. 3. DeNOx behavior as a function of the surface coverage with sulfate species
  216. Shielding effect of aluminium on sulphur dioxide deactivation of vanadium oxide on titania-alumina DeNOx catalysts
  217. In-Situ Control of Vanadyl Pyrophosphate Deactivation by Addition of So2 During C4–C5 Alkane Oxidation
  218. ANTENNA EFFECT IN LUMINESCENT LANTHANIDE CRYPTATES: A PHOTOPHYSICAL STUDY
  219. Luminescence Probes: The Eu3⊕- and Tb3⊕-Cryptates of Polypyridine Macrobicyclic Ligands
  220. Lumineszenzsonden: Quantitative photophysikalische Ergebnisse von Eu3⊕- und Tb3⊕-Cryptaten makrobicyclischer Polypyridinliganden
  221. 5.1 Photoelectrochemical CO2 Activation toward Artificial Leaves
  222. From Green to Sustainable Industrial Chemistry
  223. Accounting for Chemical Sustainability
  224. Methods and Tools of Sustainable Industrial Chemistry: Catalysis
  225. Methods and Tools of Sustainable Industrial Chemistry: Process Intensification
  226. Direct Synthesis of Hydrogen Peroxide: Recent Advances
  227. Nano-architecture and reactivity of titania catalytic materials. Part 2. Bidimensional nanostructured films
  228. Nano-architecture and reactivity of Titania catalytic materials. <i>Quasi</i>-1D nanostructures