| 1 - 1 |
Preface
Chen D, Manning M |
| 2 - 11 |
Recent advances in synthesis of reshaped Fe and Ni particles at the tips of carbon nanofibers and their catalytic applications
Duan XZ, Ji J, Qian G, Zhou XG, Chen D |
| 12 - 22 |
Nitrogen-doped carbon nanomaterials: To the mechanism of growth, electrical conductivity and application in catalysis
Podyacheva OY, Ismagilov ZR |
| 23 - 29 |
Characterization of functional groups on oxidized multi-wall carbon nanotubes by potentiometric titration
Zhang ZT, Pfefferle L, Haller GL |
| 30 - 37 |
Preparation of carbide-derived carbon supported platinum catalysts
Hasse B, Glasel J, Kern AM, Murzin DY, Etzold BJM |
| 38 - 44 |
Control of porosity and composition of carbon based catalysts prepared by template assisted routes
Utgenannt S, Hansen F, Klepel O, Jarczewski S, Wach A, Kustrowski P |
| 45 - 51 |
Iron oxide nanoparticles supported on activated carbon fibers catalyze chemoselective reduction of nitroarenes under mild conditions
Beswick O, Yuranov I, Alexander DTL, Kiwi-Minsker L |
| 52 - 58 |
In situ electrochemical regeneration of deactivated coated foam catalysts in a Robinson-Mahoney basket reactor: Example of Pd/C for nitrobenzene hydrogenation
Simescu-Lazar F, Meille V, Bornette F, Campoli F, de Bellefon C |
| 59 - 62 |
Carbonized polyacrylonitrile fibers for the catalytic ozonation of oxalic acid
Goncalves AG, Moreira J, Sousa JPS, Figueiredo JL, Pereira MFR, Orfao JJM |
| 63 - 71 |
Improved performance of carbon nanofiber-supported palladium particles in the selective 1,3-butadiene hydrogenation: Influence of carbon nanostructure, support functionalization treatment and metal precursor
Bachiller-Baeza B, Pena-Bahamonde J, Castillejos-Lopez E, Guerrero-Ruiz A, Rodriguez-Ramos I |
| 72 - 78 |
Ir supported over carbon materials for the selective hydrogenation of chloronitrobenzenes
Dongil AB, Rivera-Carcamo C, Pastor-Perez L, Sepulveda-Escribano A, Reyes P |
| 79 - 85 |
Acid treated carbon nanofibers as catalytic support for heavy oil hydroprocessing
Puron H, Pinilla JL, Suelves I, Millan M |
| 86 - 93 |
Unveiling the source of activity of carbon integral honeycomb monoliths in the catalytic methane decomposition reaction
Gatica JM, Cifredo GA, Blanco G, Trasobares S, Vidal H |
| 94 - 102 |
Metal/activated carbon systems as catalysts of methane decomposition reaction
Szymanska M, Malaika A, Rechnia P, Miklaszewska A, Kozlowski M |
| 103 - 108 |
Bismuth modified Au-Pt bimetallic catalysts for dihydroxyacetone production
Villa A, Campisi S, Chan-Thaw CE, Motta D, Wang D, Prati L |
| 109 - 116 |
Effect of the metal precursor on the properties of Pt/CeO2/C catalysts for the total oxidation of ethanol
Abdelouahab-Reddam Z, El Mail R, Coloma F, Sepulveda-Escribano A |
| 117 - 126 |
Selective 1,3-butadiene hydrogenation by gold nanoparticles on novel nano-carbon materials
Lozano-Martin MC, Castillejos E, Bachiller-Baeza B, Rodriguez-Ramos I, Guerrero-Ruiz A |
| 127 - 136 |
Kinetics of liquid phase cyclohexene hydrogenation on Pd-Al/biomorphic carbon catalysts
Cazana F, Jimare MT, Romeo E, Sebastian V, Irusta S, Latorre N, Royo C, Monzon A |
| 137 - 144 |
Green alcohol oxidation on palladium catalysts supported on amphiphilic hybrid carbon nanotubes
Benyounes A, Louisia S, Axet R, Mahfoud Z, Kacimi M, Serp P |
| 145 - 152 |
Effect of the nature of carbon support on the formation of active sites in Pd/C and Ru/C catalysts for hydrogenation of furfural
Mironenko RM, Belskaya OB, Gulyaeva TI, Nizovskii AI, Kalinkin AV, Bukhtiyarov VI, Lavrenov AV, Likholobov VA |
| 153 - 160 |
Impact of sulfonated hydrothermal carbon texture and surface chemistry on its catalytic performance in esterification reaction
Roldan L, Pires E, Fraile JM, Garcia-Bordeje E |
| 161 - 166 |
The difference between borate and phosphate modified carbon nanotubes in isopentane oxidative dehydrogenation
Huang R, Liang CH, Su DS, Zong BN, Rong JF |
| 167 - 175 |
Nanodiamond decorated few-layer graphene composite as an efficient metal-free dehydrogenation catalyst for styrene production
Ba H, Podila S, Liu YF, Mu XK, Nhut JM, Papaefthimiou V, Zafeiratos S, Granger P, Cuong PH |
| 176 - 183 |
Oxidative dehydrogenation of isobutane on carbon xerogel catalysts
Pelech I, Soares OSGP, Pereira MFR, Figueiredo JL |
| 184 - 191 |
Effects of nitrogen-, boron-, and phosphorus-doping or codoping on metal-free graphene catalysis
Duan XG, Indrawirawan S, Sun HQ, Wang SB |
| 192 - 198 |
Nitrogen-doped graphene-based materials for advanced oxidation processes
Rocha RP, Goncalves AG, Pastrana-Martinez LM, Bordoni BC, Soares OSGP, Orfao JJM, Faria JL, Figueiredo JL, Silva AMT, Pereira MFR |
| 199 - 203 |
Modification of carbon nanotubes by ball-milling to be used as ozonation catalysts
Soares OSGP, Goncalves AG, Delgado JJ, Orfao JJM, Pereira MFR |
| 204 - 212 |
Graphene-based materials for the catalytic wet peroxide oxidation of highly concentrated 4-nitrophenol solutions
Ribeiro RS, Silva AMT, Pastrana-Martinez LM, Figueiredo JL, Faria JL, Gomes HT |
| 213 - 219 |
Bimetallic activated carbon supported catalysts for the hydrogen reduction of bromate in water
Restivo J, Soares OSGP, Orfao JJM, Pereira MFR |
| 220 - 227 |
Highly porous carbon materials filled with gold and manganese oxide nanoparticles for electrochemical use
Simenyuk GY, Zakharov YA, Pavelko NV, Dodonov VG, Pugachev VM, Puzynin AV, Manina TS, Barnakov CN, Ismagilov ZR |
| 228 - 235 |
E. coli-derived carbon with nitrogen and phosphorus dual functionalities for oxygen reduction reaction
Wei L, Yu DS, Karahan HE, Birer O, Goh K, Yuan Y, Jiang WC, Liang W, Chen Y |
| 236 - 243 |
Influence of the reaction temperature on the oxygen reduction reaction on nitrogen-doped carbon nanotube catalysts
Lai TP, Cuong DV, Doh WH, Bonnefont A, Janowska I, Begin D, Savinova ER, Granger P, Cuong PH |
| 244 - 251 |
Nitrogen-doped herringbone carbon nanofibers with large lattice spacings and abundant edges: Catalytic growth and their applications in lithium ion batteries and oxygen reduction reactions
Cheng XB, Zhang Q, Wang HF, Tian GL, Huang JQ, Peng HJ, Zhao MQ, Wei F |
| 252 - 258 |
Activated carbon fibers modified by metal oxide as effective structured adsorbents for acetaldehyde
Baur GB, Yuranov I, Kiwi-Minsker L |
| 259 - 264 |
Removal of tartrazine from aqueous solution by carbon nanotubes decorated with silver nanoparticles
Goscianska J, Pietrzak R |
| 265 - 269 |
Electrocatalytic activity of multiwalled carbon nanotubes decorated by silver nanoparticles for the detection of halothane
Pifferi V, Facchinetti G, Villa A, Prati L, Falciola L |
