All Stories

  1. Fe-Nx biomass-derived carbon material as efficient cathode electrocatalyst for alkaline direct methanol fuel cells
  2. Exploring Pt-Impregnated CdS/TiO2 Heterostructures for CO2 Photoreduction
  3. Straightforward Synthesis Methodology for Obtaining Excellent ORR Electrocatalysts From Biomass Residues Through a One Pot‐High Temperature Treatment Approach
  4. Modulating the coordination environment and metal choice in carbon buckypapers supported metal phthalocyanines for enhanced electrocatalytic carbon dioxide reduction
  5. Unveiling graphite anodic expansion: Insights from electrochemical techniques, mass spectrometry, and kinetic modelling
  6. Deepening the Understanding of Carbon Active Sites for ORR Using Electrochemical and Spectrochemical Techniques
  7. Eco‐Friendly Mechanochemical Synthesis of Bifunctional Metal Oxide Electrocatalysts for Zn‐Air Batteries
  8. Enhancing Interaction between Lanthanum Manganese Cobalt Oxide and Carbon Black through Different Approaches for Primary Zn–Air Batteries
  9. Exploring the Effects Behind the Outstanding Catalytic Performance of PdAg Catalysts Supported on Almond Shell‐Derived Activated Carbon Towards the Dehydrogenation of Formic Acid
  10. Exploring the synergistic effect of palladium nanoparticles and highly dispersed transition metals on carbon nitride/super-activated carbon composites for boosting electrocatalytic activity
  11. In-situ synthesis of encapsulated N-doped carbon metal oxide nanostructures for Zn-air battery applications
  12. Electrocatalysts based on graphene oxide and its buckypaper for enhanced Zn-air battery performance
  13. Establishing ZIF‐8 as a reference material for hydrogen cryoadsorption: An interlaboratory study
  14. Hydrogen Storage System Attained by HCOOH-CO2 Couple: Recent Developments in Pd-Based Carbon-Supported Heterogeneous Catalysts
  15. Enhanced Lanthanum-Stabilized Low Crystallinity Metal Oxide Electrocatalysts with Superior Activity for Oxygen Reactions
  16. Preparation of a ruthenium complex covalently bonded to multilayer graphene and its evaluation as photocatalyst
  17. Highly selective cathodic H2O2 electrosynthesis by a metal tellurate/carbon black composite material
  18. Hydrogen Storage System Attained by HCOOH-CO2 Couple: Recent Developments in Carbon-Based Heterogeneous Catalysts
  19. Sustainable Synthesis of Metal-Doped Lignin-Derived Electrospun Carbon Fibers for the Development of ORR Electrocatalysts
  20. Efficient and selective glycerol electrolysis for the co-production of lactic acid and hydrogen with multi-component Pt/C-zeolite catalyst
  21. Microwave-Assisted Functionalization of Single-Walled Carbon Nanotubes as a Platform for a Supported Iridium Catalyst
  22. Utilization of Deposited Coke on Zeolites During the Catalytic Cracking of Nitrogen‐Containing Polymer for the Oxygen Reduction Reaction
  23. Nitrogen sites prevail over textural properties in N-doped carbons for the oxygen reduction reaction
  24. Effect of concentration and flow rate of electrolyte on electrochemical regeneration of activated carbon at pilot-plant scale
  25. Microwave-assisted synthesis of carbon-supported Pt nanoparticles for their use as electrocatalysts in the oxygen reduction reaction and hydrogen evolution reaction
  26. Few layers graphene-based electrocatalysts for ORR synthesized by electrochemical exfoliation methods
  27. LaNi1-xCoxO3 perovskites for application in electrochemical reactions involving molecular oxygen
  28. One-step synthesis of MN4 molecular electrocatalysts assembled on different nanocarbon architectures for efficient oxygen reduction
  29. Exploring the effect of surface chemistry and particle size of boron-doped diamond powder as catalyst and catalyst support for the oxygen reduction reaction
  30. Metal oxide Perovskite-Carbon composites as electrocatalysts for zinc-air batteries. Optimization of ball-milling mixing parameters
  31. One-Step Synthesis of Mn4 Molecular Electrocatalysts Assembled on Different Nanocarbon Architectures for Efficient Oxygen Reduction
  32. Activated Carbon from Stipa tenacissima for the Adsorption of Atenolol
  33. Life Cycle assessment of biorefinery technology producing activated carbon and levulinic acid
  34. Transition metal oxides with perovskite and spinel structures for electrochemical energy production applications
  35. Electrochemical functionalization at anodic conditions of multi-walled carbon nanotubes with chlorodiphenylphosphine
  36. g-C3N4-Based Direct Z-Scheme Photocatalysts for Environmental Applications
  37. P-functionalized carbon nanotubes promote highly stable electrocatalysts based on Fe-phthalocyanines for oxygen reduction: Experimental and computational studies
  38. Efficient and cost-effective ORR electrocatalysts based on low content transition metals highly dispersed on C3N4/super-activated carbon composites
  39. Efficient production of hydrogen from a valuable CO2-derived molecule: Formic acid dehydrogenation boosted by biomass waste-derived catalysts
  40. Easy enrichment of graphitic nitrogen to prepare highly catalytic carbons for oxygen reduction reaction
  41. Manganese oxides/LaMnO3 perovskite materials and their application in the oxygen reduction reaction
  42. On the deactivation of N-doped carbon materials active sites during oxygen reduction reaction
  43. Electrocatalytic activity of calcined manganese ferrite solid nanospheres in the oxygen reduction reaction
  44. On the mechanism of electrochemical functionalization of carbon nanotubes with different structures with aminophenylphosphonic acid isomers: an experimental and computational approach
  45. Controlled synthesis of mono- and bimetallic Pt-based catalysts for electrochemical ethanol oxidation
  46. Exploring CuxO-doped TiO2 modified with carbon nanotubes for CO2 photoreduction in a 2D-flow reactor
  47. H2 Production from Formic Acid Using Highly Stable Carbon-Supported Pd-Based Catalysts Derived from Soft-Biomass Residues: Effect of Heat Treatment and Functionalization of the Carbon Support
  48. Preparation of mesoporous γ-Al2O3 with high surface area from an AlOOH extract of recycling biomass ash
  49. Pyrroloquinoline quinone-dependent glucose dehydrogenase bioelectrodes based on one-step electrochemical entrapment over single-wall carbon nanotubes
  50. Corrigendum to “Multi‐wall carbon nanotubes electrochemically modified with phosphorus and nitrogen functionalities as a basis for bioelectrodes with improved performance” [Electrochimica Acta 387 (2021) 138530]
  51. Multi‐wall carbon nanotubes electrochemically modified with phosphorus and nitrogen functionalities as a basis for bioelectrodes with improved performance
  52. Formic acid dehydrogenation attained by Pd nanoparticles-based catalysts supported on MWCNT-C3N4 composites
  53. Single atomic Co coordinated with N in microporous carbon for oxygen reduction reaction obtained from Co/2-methylimidazole anchored to Y zeolite as a template
  54. Comparative analysis of water condensate porosity using mercury intrusion porosimetry and nitrogen and water adsorption techniques in porous building stones
  55. Hydrolytic Dehydrogenation of Ammonia Borane Attained by Ru-Based Catalysts: An Auspicious Option to Produce Hydrogen from a Solid Hydrogen Carrier Molecule
  56. Feasibility of electrochemical regeneration of activated carbon used in drinking water treatment plant. Reactor configuration design at a pilot scale
  57. Preparation of Pt/CNT Thin-Film Electrodes by Electrochemical Potential Pulse Deposition for Methanol Oxidation
  58. Keys and New Trends of Iron-Based Catalysts in Selective Oxidation of Propylene in Gas Phase
  59. Copper ferrite nanospheres composites mixed with carbon black to boost the oxygen reduction reaction
  60. Electroadsorption of Bromide from Natural Water in Granular Activated Carbon
  61. Electrochemical performance of N‐doped superporous activated carbons in ionic liquid‐based electrolytes
  62. Electrochemical regeneration of spent activated carbon from drinking water treatment plant at different scale reactors
  63. Study of MWCNT Dispersion Effect in TiO2-MWCNT Composites for Gas-Phase Propene Photooxidation
  64. Metal free electrochemical glucose biosensor based on N-doped porous carbon material
  65. Biomass waste conversion into low-cost carbon-based materials for supercapacitors: A sustainable approach for the energy scenario
  66. On the Mechanism of Electrochemical Functionalization of Carbon Nanotubes with Different Structures with Aminophenylphosphonic Acid Isomers. An Experimental and Computational Approach
  67. Carbon Material and Cobalt-Substitution Effects in the Electrochemical Behavior of LaMnO3 for ORR and OER
  68. Tailoring Intrinsic Properties of Polyaniline by Functionalization with Phosphonic Groups
  69. On the Origin of the Effect of pH in Oxygen Reduction Reaction for Nondoped and Edge-Type Quaternary N-Doped Metal-Free Carbon-Based Catalysts
  70. Synthesis of TiO2/Nanozeolite Composites for Highly Efficient Photocatalytic Oxidation of Propene in the Gas Phase
  71. Polyaniline-Derived N-Doped Ordered Mesoporous Carbon Thin Films: Efficient Catalysts towards Oxygen Reduction Reaction
  72. Nitrogen Doped Superactivated Carbons Prepared at Mild Conditions as Electrodes for Supercapacitors in Organic Electrolyte
  73. Highly Stable N-Doped Carbon-Supported Pd-Based Catalysts Prepared from Biomass Waste for H2 Production from Formic Acid
  74. Effect of surface oxygen groups in the electrochemical modification of multi-walled carbon nanotubes by 4-amino phenyl phosphonic acid
  75. Metal-free heteroatom-doped carbon-based catalysts for ORR: A critical assessment about the role of heteroatoms
  76. Zn-Promoted Selective Gas-Phase Hydrogenation of Tertiary and Secondary C4 Alkynols over Supported Pd
  77. Novelty without nobility: Outstanding Ni/Ti-SiO2 catalysts for propylene epoxidation
  78. Activation of electrospun lignin-based carbon fibers and their performance as self-standing supercapacitor electrodes
  79. Development of mesoporous materials from biomass ash with future applications as adsorbent materials
  80. Synthesis of Phosphorus-Containing Polyanilines by Electrochemical Copolymerization
  81. Effect of carbon surface on degradation of supercapacitors in a negative potential range
  82. Photocatalytically-driven H2 production over Cu/TiO2 catalysts decorated with multi-walled carbon nanotubes
  83. MWCNT-Supported PVP-Capped Pd Nanoparticles as Efficient Catalysts for the Dehydrogenation of Formic Acid
  84. Nitrogen-Doped Seamless Activated Carbon Electrode with Excellent Durability for Electric Double Layer Capacitor
  85. Electrochemical functionalization of single wall carbon nanotubes with phosphorus and nitrogen species
  86. Rational Design of Single Atomic Co in CoN x Moieties on Graphene Matrix as an Ultra‐Highly Efficient Active Site for Oxygen Reduction Reaction
  87. Hardwood versus softwood Kraft lignin – precursor-product relationships in the manufacture of porous carbon nanofibers for supercapacitors
  88. Structural and morphological alterations induced by cobalt substitution in LaMnO3 perovskites
  89. Hydrogen Production from Formic Acid Attained by Bimetallic Heterogeneous PdAg Catalytic Systems
  90. Photo-microfluidic chip reactors for propene complete oxidation with TiO2 photocalyst using UV-LED light
  91. Post-synthetic efficient functionalization of polyaniline with phosphorus-containing groups. Effect of phosphorus on electrochemical properties
  92. Are the Accompanying Cations of Doping Anions Influential in Conducting Organic Polymers? The Case of the Popular PEDOT
  93. Efficient Production of Multi-Layer Graphene from Graphite Flakes in Water by Lipase-Graphene Sheets Conjugation
  94. Green Exfoliation of Graphite Flakes to Efficiently Synthesize Biographene
  95. Understanding of oxygen reduction reaction by examining carbon-oxygen gasification reaction and carbon active sites on metal and heteroatoms free carbon materials of different porosities and structures
  96. Strategies to Enhance the Performance of Electrochemical Capacitors Based on Carbon Materials
  97. A Simple “Nano-Templating” Method Using Zeolite Y Toward the Formation of Carbon Schwarzites
  98. Nitrogen-Doped Superporous Activated Carbons as Electrocatalysts for the Oxygen Reduction Reaction
  99. Copper-Doped Cobalt Spinel Electrocatalysts Supported on Activated Carbon for Hydrogen Evolution Reaction
  100. From Waste to Wealth: From Kraft Lignin to Free-standing Supercapacitors
  101. Carbon Nanotubes Modified With Au for Electrochemical Detection of Prostate Specific Antigen: Effect of Au Nanoparticle Size Distribution
  102. Fabrication of Co/P25 coated with thin nitrogen-doped carbon shells (Co/P25/NC) as an efficient electrocatalyst for oxygen reduction reaction (ORR)
  103. Modeling of oxygen reduction reaction in porous carbon materials in alkaline medium. Effect of microporosity
  104. Anchoring a Co/2-methylimidazole complex on ion-exchange resin and its transformation to Co/N-doped carbon as an electrocatalyst for the ORR
  105. Free-standing supercapacitors from Kraft lignin nanofibers with remarkable volumetric energy density
  106. Insight into the origin of carbon corrosion in positive electrodes of supercapacitors
  107. Multilayer graphene functionalized through thermal 1,3-dipolar cycloadditions with imino esters: a versatile platform for supported ligands in catalysis
  108. Towards understanding the active sites for the ORR in N-doped carbon materials through fine-tuning of nitrogen functionalities: an experimental and computational approach
  109. New insights into the electrochemical behaviour of porous carbon electrodes for supercapacitors
  110. Ferrosilicate-Based Heterogeneous Fenton Catalysts: Influence of Crystallinity, Porosity, and Iron Speciation
  111. Facile encapsulation of P25 (TiO2) in spherical silica with hierarchical porosity with enhanced photocatalytic properties for gas-phase propene oxidation
  112. Effect of Nitrogen-Functional Groups on the ORR Activity of Activated Carbon Fiber-Polypyrrole-Based Electrodes
  113. Photocatalytic Oxidation of VOCs in Gas Phase Using Capillary Microreactors with Commercial TiO2 (P25) Fillings
  114. Ultraporous nitrogen-doped zeolite-templated carbon for high power density aqueous-based supercapacitors
  115. Hydrogen Storage in Porous Materials: Status, Milestones, and Challenges
  116. Oxygen-reduction catalysis of N-doped carbons prepared via heat treatment of polyaniline at over 1100 °C
  117. Tailored metallacarboranes as mediators for boosting the stability of carbon-based aqueous supercapacitors
  118. Synthesis of TiO2 with Hierarchical Porosity for the Photooxidation of Propene
  119. A new zeolitic hydroxymethylimidazolate material and its use in mixed matrix membranes based on 6FDA-DAM for gas separation
  120. Key factors improving oxygen reduction reaction activity in cobalt nanoparticles modified carbon nanotubes
  121. Relevance of the Interaction between the M-Phthalocyanines and Carbon Nanotubes in the Electroactivity toward ORR
  122. Pd and Cu-Pd nanoparticles supported on multiwall carbon nanotubes for H 2 detection
  123. Effect of carbonization conditions of polyaniline on its catalytic activity towards ORR. Some insights about the nature of the active sites
  124. Lignin-derived Pt supported carbon (submicron)fiber electrocatalysts for alcohol electro-oxidation
  125. K- and Ca-promoted ferrosilicates for the gas-phase epoxidation of propylene with O 2
  126. Efficient Pt electrocatalysts supported onto flavin mononucleotide–exfoliated pristine graphene for the methanol oxidation reaction
  127. Effects of the surface chemistry and structure of carbon nanotubes on the coating of glucose oxidase and electrochemical biosensors performance
  128. Magnetic zeolites: novel nanoreactors through radiofrequency heating
  129. Removal of heavy metal ions by adsorption onto activated carbon prepared from Stipa tenacissima leaves
  130. Synthesis of conducting polymer/carbon material composites and their application in electrical energy storage
  131. Electrochemical performance of a superporous activated carbon in ionic liquid-based electrolytes
  132. Activated Carbons Prepared through H3PO4-Assisted Hydrothermal Carbonisation from Biomass Wastes: Porous Texture and Electrochemical Performance
  133. Evolution of the PVP–Pd Surface Interaction in Nanoparticles through the Case Study of Formic Acid Decomposition
  134. Nitrogen doped superporous carbon prepared by a mild method. Enhancement of supercapacitor performance
  135. Asymmetric capacitors using lignin-based hierarchical porous carbons
  136. One step-synthesis of highly dispersed iron species into silica for propylene epoxidation with dioxygen
  137. Structural and textural features of TiO2/SAPO-34 nanocomposite prepared by the sol–gel method
  138. Successful functionalization of superporous zeolite templated carbon using aminobenzene acids and electrochemical methods
  139. Design of Activated Carbon/Activated Carbon Asymmetric Capacitors
  140. Biomass-derived binderless fibrous carbon electrodes for ultrafast energy storage
  141. Easy fabrication of superporous zeolite templated carbon electrodes by electrospraying on rigid and flexible substrates
  142. Enhanced ammonia-borane decomposition by synergistic catalysis using CoPd nanoparticles supported on titano-silicates
  143. Pd/zeolite-based catalysts for the preferential CO oxidation reaction: ion-exchange, Si/Al and structure effect
  144. Silica-templated ordered mesoporous carbon thin films as electrodes for micro-capacitors
  145. Enhanced electro-oxidation resistance of carbon electrodes induced by phosphorus surface groups
  146. Pseudocapacitance of zeolite-templated carbon in organic electrolytes
  147. Capillary microreactors based on hierarchical SiO2 monoliths incorporating noble metal nanoparticles for the Preferential Oxidation of CO
  148. Functionalization of carbon nanotubes using aminobenzene acids and electrochemical methods. Electroactivity for the oxygen reduction reaction
  149. Generation of nitrogen functionalities on activated carbons by amidation reactions and Hofmann rearrangement: Chemical and electrochemical characterization
  150. Characterization of a zeolite-templated carbon by electrochemical quartz crystal microbalance and in situ Raman spectroscopy
  151. Ordered mesoporous titanium oxide for thin film microbatteries with enhanced lithium storage
  152. Palladium and Bimetallic Palladium-Nickel Nanoparticles Supported on Multiwalled Carbon Nanotubes: Application to CarbonCarbon Bond-Forming Reactions in Water
  153. Improvement of carbon materials performance by nitrogen functional groups in electrochemical capacitors in organic electrolyte at severe conditions
  154. Switchable Surfactant-Assisted Carbon Nanotube Coatings: Innovation through pH Shift
  155. Investigation of Pd nanoparticles supported on zeolites for hydrogen production from formic acid dehydrogenation
  156. Electrochemical behaviour of activated carbons obtained via hydrothermal carbonization
  157. Beyond the H2/CO2 upper bound: one-step crystallization and separation of nano-sized ZIF-11 by centrifugation and its application in mixed matrix membranes
  158. Synthesis of Robust Hierarchical Silica Monoliths by Surface-Mediated Solution/Precipitation Reactions over Different Scales: Designing Capillary Microreactors for Environmental Applications
  159. Electroadsorption of Arsenic from Natural Water in Granular Activated Carbon
  160. Development of exfoliated layered stannosilicate for hydrogen adsorption
  161. Optimizing the performance of catalytic traps for hydrocarbon abatement during the cold-start of a gasoline engine
  162. Grand Challenges in Carbon-Based Materials Research
  163. Tailoring the Surface Chemistry of Activated Carbon Cloth by Electrochemical Methods
  164. New insights on electrochemical hydrogen storage in nanoporous carbons by in situ Raman spectroscopy
  165. Electrochemical Performance of Hierarchical Porous Carbon Materials Obtained from the Infiltration of Lignin into Zeolite Templates
  166. Surface Chemistry of Green Carbons
  167. Preparation of homogeneous CNT coatings in insulating capillary tubes by an innovative electrochemically-assisted method
  168. Carbon–carbon asymmetric aqueous capacitor by pseudocapacitive positive and stable negative electrodes
  169. Effect of the surface chemical groups of activated carbons on their surface adsorptivity to aromatic adsorbates based on π-π interactions
  170. Single wall carbon nanotubes loaded with Pd and NiPd nanoparticles for H2 sensing at room temperature
  171. Graphene-Clay Based Nanomaterials for Clean Energy Storage
  172. On the origin of the high capacitance of nitrogen-containing carbon nanotubes in acidic and alkaline electrolytes
  173. Tailoring the porosity of chemically activated hydrothermal carbons: Influence of the precursor and hydrothermal carbonization temperature
  174. Flexible ruthenium oxide-activated carbon cloth composites prepared by simple electrodeposition methods
  175. BETA Zeolite Thin Films Supported on Honeycomb Monoliths with Tunable Properties as Hydrocarbon Traps under Cold‐Start Conditions
  176. Relevance of porosity and surface chemistry of superactivated carbons in capacitors
  177. Porous Biomass‐Derived Carbons: Activated Carbons
  178. CuH-ZSM-5 as Hydrocarbon Trap under Cold Start Conditions
  179. Electrochemical generation of oxygen-containing groups in an ordered microporous zeolite-templated carbon
  180. Asymmetric hybrid capacitors based on activated carbon and activated carbon fibre–PANI electrodes
  181. Nanoarchitectures Based on Layered Titanosilicates Supported on Glass Fibers: Application to Hydrogen Storage
  182. Hydrothermal Carbons from Hemicellulose‐Derived Aqueous Hydrolysis Products as Electrode Materials for Supercapacitors
  183. Abatement of hydrocarbons by acid ZSM-5 and BETA zeolites under cold-start conditions
  184. Binderless thin films of zeolite-templated carbon electrodes useful for electrochemical microcapacitors with ultrahigh rate performance
  185. Clay-supported graphene materials: application to hydrogen storage
  186. Total oxidation of naphthalene at low temperatures using palladium nanoparticles supported on inorganic oxide-coated cordierite honeycomb monoliths
  187. Activated Carbon Fibers
  188. Advances in Hydrogen Storage in Carbon Materials
  189. Total oxidation of naphthalene using palladium nanoparticles supported on BETA, ZSM-5, SAPO-5 and alumina powders
  190. Electrooxidation Methods to Produce Pseudocapacitance-containing Porous Carbons
  191. Investigating the influence of surfactants on the stabilization of aqueous reduced graphene oxide dispersions and the characteristics of their composite films
  192. Pillared carbons consisting of silsesquioxane bridged graphene layers for hydrogen storage materials
  193. Effect of the aging time of PVP coated palladium nanoparticles colloidal suspensions on their catalytic activity in the preferential oxidation of CO
  194. A comparison between oxidation of activated carbon by electrochemical and chemical treatments
  195. Characterization of activated carbon fiber/polyaniline materials by position-resolved microbeam small-angle X-ray scattering
  196. MOF-5 and activated carbons as adsorbents for gas storage
  197. Molecular simulation design of a multisite solid for the abatement of cold start emissions
  198. Zeolite A/carbon membranes for H2 purification from a simulated gas reformer mixture
  199. Effect of the porous texture and surface chemistry of activated carbons on the adsorption of a germanium complex from dilute aqueous solutions
  200. MCM-41 Porosity: Are Surface Corrugations Micropores?
  201. Electrochemical Preparation of Nanoparticle Deposits: Application to Membranes and Catalysis
  202. Electrophoretic Deposition for the Synthesis of Inorganic Membranes
  203. Benzene and toluene adsorption at low concentration on activated carbon fibres
  204. Preferential oxidation of CO catalyzed by supported polymer-protected palladium-based nanoparticles
  205. A comparison of hydrogen storage in activated carbons and a metal–organic framework (MOF-5)
  206. Electrochemical regeneration and porosity recovery of phenol-saturated granular activated carbon in an alkaline medium
  207. Ni-doped carbon xerogels for H2 storage
  208. Carbon for Energy Storage and Environment Protection 2009 Special Issue
  209. Comparison among Chemical, Thermal, and Electrochemical Regeneration of Phenol-Saturated Activated Carbon†
  210. Kinetics of Double-Layer Formation: Influence of Porous Structure and Pore Size Distribution†
  211. Experimental and simulated propene isotherms on porous solids
  212. Screening of different zeolites and silicoaluminophosphates for the retention of propene under cold start conditions
  213. Hydrogen purification for PEM fuel cells using membranes prepared by ion-exchange of Na-LTA/carbon membranes
  214. Measuring cycle efficiency and capacitance of chemically activated carbons in propylene carbonate
  215. Scale-up activation of carbon fibres for hydrogen storage
  216. Regeneration of activated carbons saturated with benzene or toluene using an oxygen-containing atmosphere
  217. New insights on the direct activation of isotropic petroleum pitch by alkaline hydroxides
  218. Characteristics of an activated carbon monolith for a helium adsorption compressor
  219. Porous Texture of Carbons
  220. Fundamentals of methane adsorption in microporous carbons
  221. Isotropic petroleum pitch as a carbon precursor for the preparation of activated carbons by KOH activation
  222. Arsenic species interactions with a porous carbon electrode as determined with an electrochemical quartz crystal microbalance
  223. Effect of electrochemical treatments on the surface chemistry of activated carbon
  224. Activated Carbons for the Removal of Low-Concentration Gaseous Toluene at the Semipilot Scale
  225. Application of Non-crystalline Diffraction with Microfocus to Carbon Fibres
  226. Zeolite LTA/carbon membranes for air separation
  227. Advanced activated carbon monoliths and activated carbons for hydrogen storage
  228. Comparative study of the micropore development on physical activation of carbon fibers from coal tar and petroleum pitches
  229. Inorganic materials as supports for palladium nanoparticles: Application in the semi-hydrogenation of phenylacetylene
  230. Effect of surface chemistry on electrochemical storage of hydrogen in porous carbon materials
  231. Impact of the carbonisation temperature on the activation of carbon fibres and their application for hydrogen storage
  232. Effect of the intercalated cation on the properties of poly(o-methylaniline)/maghnite clay nanocomposites
  233. Effects of Carbon-Supported Nickel Catalysts on MgH2 Decomposition
  234. Semihydrogenation of Phenylacetylene Catalyzed by Palladium Nanoparticles Supported on Carbon Materials
  235. Effect of the stabilisation time of pitch fibres on the molecular sieve properties of carbon fibres
  236. Semihydrogenation of Phenylacetylene Catalyzed by Palladium Nanoparticles Supported on Carbon Materials
  237. Electrochemical Methods to Enhance the Capacitance in Activated Carbon/Polyaniline Composites
  238. Effects of different carbon materials on MgH2 decomposition
  239. Adsorption on Activated Carbon Fibers
  240. Electrochemical deposition of platinum nanoparticles on different carbon supports and conducting polymers
  241. A new strategy for germanium adsorption on activated carbon by complex formation
  242. Carbon activation with KOH as explored by temperature programmed techniques, and the effects of hydrogen
  243. Activated carbons prepared by pyrolysis of mixtures of carbon precursor/alkaline hydroxide
  244. Polyaniline/porous carbon electrodes by chemical polymerisation: Effect of carbon surface chemistry
  245. Influence of carbon fibres crystallinities on their chemical activation by KOH and NaOH
  246. Stabilisation of low softening point petroleum pitch fibres by iodine treatment
  247. State of Pt in Dried and Reduced PtIn and PtSn Catalysts Supported on Carbon
  248. Hydrogen storage on chemically activated carbons and carbon nanomaterials at high pressures
  249. Chemical and electrochemical characterization of porous carbon materials
  250. Semihydrogenation of phenylacetylene catalyzed by metallic nanoparticles containing noble metals
  251. Synthesis and Permeation Properties of Silicalite-1/Carbon Membranes
  252. Competitive adsorption of a benzene–toluene mixture on activated carbons at low concentration
  253. Isotropic and anisotropic microporosity development upon chemical activation of carbon fibers, revealed by microbeam small-angle X-ray scattering
  254. Total oxidation of volatile organic compounds by vanadium promoted palladium-titania catalysts: Comparison of aromatic and polyaromatic compounds
  255. Role of surface chemistry on electric double layer capacitance of carbon materials
  256. Comparative Characterization Study of Microporous Carbons by HRTEM Image Analysis and Gas Adsorption
  257. Behaviour of activated carbons with different pore size distributions and surface oxygen groups for benzene and toluene adsorption at low concentrations
  258. Adsorption properties of carbon molecular sieves prepared from an activated carbon by pitch pyrolysis
  259. Oxygen functional groups involved in the styrene production reaction detected by quasi in situ XPS
  260. Preparation of silicalite-1 layers on Pt-coated carbon materials: a possible electrochemical approach towards membrane reactors
  261. Effect of carbon fibres on the mechanical properties and corrosion levels of reinforced portland cement mortars
  262. KOH and NaOH activation mechanisms of multiwalled carbon nanotubes with different structural organisation
  263. Oxidation of SO2 catalysed by Mn-zeolites in aqueous phase
  264. About reactions occurring during chemical activation with hydroxides
  265. Activation of coal tar pitch carbon fibres: Physical activation vs. chemical activation
  266. Usefulness of CO2 adsorption at 273 K for the characterization of porous carbons
  267. HRTEM study of activated carbons prepared by alkali hydroxide activation of anthracite
  268. Analysis of the microporosity shrinkage upon thermal post-treatment of H3PO4 activated carbons
  269. Role of the activated carbon surface chemistry in the adsorption of phenanthrene
  270. Carbon-supported PtSn Catalysts: Characterization and Catalytic Properties
  271. Preface
  272. Preparation of thin silicalite-1 layers on carbon materials by electrochemical methods
  273. Influence of the nature and the content of carbon fiber on properties of thermoplastic polyurethane-carbon fiber composites
  274. Microporous Solid Characterization: Use of Classical and “New” Techniques
  275. Catalytic cracking of ethylene-vinyl acetate copolymers: comparison of different zeolites
  276. Silicalite-1 membranes supported on porous carbon discs
  277. Understanding chemical reactions between carbons and NaOH and KOH
  278. Probe Molecule Kinetic Studies of Adsorption on MCM-41
  279. Stabilisation of low softening point petroleum pitch fibres by HNO3
  280. The role of different nitrogen functional groups on the removal of SO2 from flue gases by N-doped activated carbon powders and fibres
  281. Influence of pore structure and surface chemistry on electric double layer capacitance in non-aqueous electrolyte
  282. SO2−Faujasite Interaction:  A Study by in Situ FTIR and Thermogravimetry
  283. Hydrogen Storage in Activated Carbons and Activated Carbon Fibers
  284. Advances in the study of methane storage in porous carbonaceous materials
  285. Powdered Activated Carbons and Activated Carbon Fibers for Methane Storage:  A Comparative Study
  286. Micropore Size Distributions of Activated Carbons and Carbon Molecular Sieves Assessed by High-Pressure Methane and Carbon Dioxide Adsorption Isotherms
  287. High surface area carbon nanotubes prepared by chemical activation
  288. Enhanced capacitance of carbon nanotubes through chemical activation
  289. Activated carbon fibre monoliths
  290. Can highly activated carbons be prepared with a homogeneous micropore size distribution?
  291. Usefulness of chemically activated anthracite for the abatement of VOC at low concentrations
  292. Influence of pore size distribution on methane storage at relatively low pressure: preparation of activated carbon with optimum pore size
  293. Increase of the softening point of a petroleum pitch by heat-treatment in the presence of a nitrogenated resin
  294. Structural characterization of N-containing activated carbon fibers prepared from a low softening point petroleum pitch and a melamine resin
  295. Application of zeolitic material synthesised from fly ash to the decontamination of waste water and flue gas
  296. Selective synthesis of zeolite briquettes from conformed ashes
  297. A TEOM-MS study on the interaction of N2O with a hydrotalcite-derived multimetallic mixed oxide catalyst
  298. Activated carbon monoliths for methane storage: influence of binder
  299. Characterization of pore distribution in activated carbon fibers by microbeam small angle X-ray scattering
  300. Molecular sieve properties obtained by cracking of methane on activated carbon fibers
  301. Carbon–ceramic composites from coal tar pitch and clays: application as electrocatalyst support
  302. Microbeam small angle X-ray scattering (μSAXS): a novel technique for the characterization of activated carbon fibers.
  303. About the exclusive mesoporous character of MCM-41
  304. In situ small angle neutron scattering study of CD4 adsorption under pressure in activated carbons
  305. Preparation of activated carbons from Spanish anthracite
  306. Preparation of activated carbons from Spanish anthracite
  307. Effect of the support in Pt and PtSn catalysts used for selective hydrogenation of carvone
  308. Temperature programmed desorption study on the mechanism of SO2 oxidation by activated carbon and activated carbon fibres
  309. Synthesis and characterisation of MFI-type zeolites supported on carbon materials
  310. Characterisation of coal tar pitches by thermal analysis, infrared spectroscopy and solvent fractionation
  311. Factors controling the SO2 removal by porous carbons: relevance of the SO2 oxidation step
  312. Further evidences of the usefulness of CO2 adsorption to characterize microporous solids.
  313. Characterization of activated carbon fibers by Positron Annihilation Lifetime Spectroscopy (PALS)
  314. Porosity Development during CO2 and Steam Activation in a Fluidized Bed Reactor
  315. XAFS Study of Dried and Reduced PtSn/C Catalysts: Nature and Structure of the Catalytically Active Phase
  316. ChemInform Abstract: Characterization and Catalytic Behavior of Pt/C Catalysts: Effect of Precursor and Carbon Surface Chemistry on Metal‐Support Interaction
  317. Catalytic Oxidation of Sulfur Dioxide by Activated Carbon: A Physical Chemistry Experiment
  318. Characterization of Bimetallic PtSn Catalysts Supported on Purified and H2O2-Functionalized Carbons Used for Hydrogenation Reactions
  319. Molecular sieve properties of general-purpose carbon fibres
  320. CO2 As an Adsorptive To Characterize Carbon Molecular Sieves and Activated Carbons
  321. States of Pt in Pt/C catalyst precursors after impregnation, drying and reduction steps
  322. Preparation of conductive carbon-ceramic composites from coal tar pitch and ceramic monoliths
  323. Further Advances in the Characterization of Microporous Carbons by Physical Adsorption of Gases
  324. Characterization of activated carbon fibers by small angle x-ray scattering
  325. Methane storage in activated carbon fibres
  326. Production of activated carbons: use of CO2 versus H2O as activating agent. A reply to a letter from P. L. Walker Jr.
  327. The effects of hydrogen on thermal desorption of oxygen surface complexes
  328. Theoretical and experimental studies of methane adsorption on microporous carbons
  329. Preparation of general purpose carbon fibers from coal tar pitches with low softening point
  330. Selective porosity development by calcium-catalyzed carbon gasification
  331. Characterization of Activated Carbon Fibers by CO2 Adsorption
  332. Structural studies of microporous carbons by neutron diffraction
  333. Structure Sensitivity of CO2 Hydrogenation Reaction Catalyzed by Pt/Carbon Catalysts
  334. CO2 hydrogenation under pressure on catalysts PtCa/C
  335. Structural study of a phenolformaldehyde char
  336. Isotopic steady-state and step-response study on carbon gasification catalyzed by calcium
  337. Metal-support interaction in Pt/C catalysts. Influence of the support surface chemistry and the metal precursor
  338. Carbon dioxide hydrogenation catalyzed by alkaline earth- and platinum-based catalysts supported on carbon
  339. On why do different carbons show different gasification rates: A transient isotopic CO2 gasification study
  340. Effect of the activating gas on tensile strength and pore structure of pitch-based carbon fibres
  341. Assessment of the CO2-carbon gasification catalyzed by calcium. A transient isotopic study
  342. Characterization of pore size in activated carbons by small-angle x-ray scattering
  343. Local structure of calcium species dispersed on carbon: influence of the metal loading procedure and its evolution during pyrolysis
  344. Tpd and TPR characterization of carbonaceous supports and Pt/C catalysts
  345. CO2-Carbon gasification catalyzed by alkaline-earths: Comparative study of the metal-carbon interaction and of the specific activity
  346. XAFS and thermogravimetry study of the sintering of calcium supported on carbon
  347. A temperature-programmed reaction study of calcium-catalyzed carbon gasification
  348. Carbon gasification catalyzed by calcium: A high vacuum temperature programmed desorption study
  349. Calcium catalytic active sites in carbon-gas reactions. Determination of the specific activity
  350. Carbon dioxide-calcium oxide surface and bulk reactions: thermodynamic and kinetic approach
  351. In situ methods used to characterize calcium as a catalyst of carbon gasification reactions
  352. Calcium-carbon interaction study: Its importance in the carbon-gas reactions
  353. An Approach to the Mechanism of the CO2-Carbon Gasification Reaction Catalyzed by Calcium
  354. Nature and structure of calcium dispersed on carbon
  355. The state of calcium as a char gasification catalyst — a temperature-programmed reaction study
  356. Controlling Porosity to Improve Activated Carbon Applications
  357. Hydrogen Adsorption on Carbon Materials at High Pressures and Different Temperatures