| 1 - 8 |
Enhancement of ethanol oxidation on Pd nanoparticles supported on carbon-antimony tin oxide hybrids unveils the relevance of electronic effects
Alvarenga GM, Gallo IBC, Villullas HM |
| 1 - 8 |
Enhancement of ethanol oxidation on Pd nanoparticles supported on carbon-antimony tin oxide hybrids unveils the relevance of electronic effects
Alvarenga GM, Gallo IBC, Villullas HM |
| 9 - 21 |
Influence of atomic structure on the nano-nickel-based catalyst activity produced by solution combustion synthesis in the hydrogenation of maleic acid
Xanthopoulou G, Thoda O, Metaxa ED, Vekinis G, Chroneos A |
| 9 - 21 |
Influence of atomic structure on the nano-nickel-based catalyst activity produced by solution combustion synthesis in the hydrogenation of maleic acid
Xanthopoulou G, Thoda O, Metaxa ED, Vekinis G, Chroneos A |
| 22 - 28 |
Influence of the nature of the carbon support on the activity of Pt/C catalysts for ethanol and carbon monoxide oxidation
Rizo R, Sebastian D, Rodriguez JL, Lazaro MJ, Pastor E |
| 22 - 28 |
Influence of the nature of the carbon support on the activity of Pt/C catalysts for ethanol and carbon monoxide oxidation
Rizo R, Sebastian D, Rodriguez JL, Lazaro MJ, Pastor E |
| 29 - 39 |
Effect of potassium on the active phases of Fe catalysts for carbon dioxide conversion to liquid fuels through hydrogenation
Amoyal M, Vidruk-Nehemya R, Landau MV, Herskowitz M |
| 29 - 39 |
Effect of potassium on the active phases of Fe catalysts for carbon dioxide conversion to liquid fuels through hydrogenation
Amoyal M, Vidruk-Nehemya R, Landau MV, Herskowitz M |
| 40 - 46 |
Significant electron transfer in heme catalysis: The case of chlorite dismutase
Su JX, Chen SL |
| 40 - 46 |
Significant electron transfer in heme catalysis: The case of chlorite dismutase
Su JX, Chen SL |
| 47 - 58 |
Structure-activity relationships of carbon-supported platinum-bismuth and platinum-antimony oxidation catalysts
Maphoru MV, Pillai SK, Heveling J |
| 47 - 58 |
Structure-activity relationships of carbon-supported platinum-bismuth and platinum-antimony oxidation catalysts
Maphoru MV, Pillai SK, Heveling J |
| 59 - 74 |
Microkinetic analysis of C-3-C-5 ketone hydrogenation over supported Ru catalysts
Abdelrahman OA, Heyden A, Bond JQ |
| 59 - 74 |
Microkinetic analysis of C-3-C-5 ketone hydrogenation over supported Ru catalysts
Abdelrahman OA, Heyden A, Bond JQ |
| 75 - 89 |
Kinetic and spectroscopic evidence for reaction pathways and intermediates for olefin epoxidation on Nb in *BEA
Bregante DT, Priyadarshini P, Flaherty DW |
| 75 - 89 |
Kinetic and spectroscopic evidence for reaction pathways and intermediates for olefin epoxidation on Nb in *BEA
Bregante DT, Priyadarshini P, Flaherty DW |
| 90 - 99 |
Continuous-flow oxidative homocouplings without auxiliary substances: Exploiting a solid base catalyst
Otvos SB, Georgiades A, Meszaros R, Kis K, Palinko I, Fulop F |
| 90 - 99 |
Continuous-flow oxidative homocouplings without auxiliary substances: Exploiting a solid base catalyst
Otvos SB, Georgiades A, Meszaros R, Kis K, Palinko I, Fulop F |
| 100 - 109 |
Electron transfer dependent catalysis of Pt on N-doped carbon nanotubes: Effects of synthesis method on metal-support interaction
Ning XM, Li YH, Dong BQ, Wang HJ, Yu H, Peng F, Yang YH |
| 100 - 109 |
Electron transfer dependent catalysis of Pt on N-doped carbon nanotubes: Effects of synthesis method on metal-support interaction
Ning XM, Li YH, Dong BQ, Wang HJ, Yu H, Peng F, Yang YH |
| 110 - 124 |
Promoting effect of In2O3 on CuO for the Rochow reaction: The formation of P-N junctions at the hetero-interfaces
Zhang Y, Li J, Liu HZ, Ji YJ, Zhong ZY, Su FB |
| 110 - 124 |
Promoting effect of In2O3 on CuO for the Rochow reaction: The formation of P-N junctions at the hetero-interfaces
Zhang Y, Li J, Liu HZ, Ji YJ, Zhong ZY, Su FB |
| 125 - 134 |
Unravelling water effects on solid acid catalysts: Case study of TiO2/SiO2 as a catalyst for the dehydration of isobutanol
Buniazet Z, Couble J, Bianchi D, Rivallan M, Cabiac A, Maury S, Loridant S |
| 125 - 134 |
Unravelling water effects on solid acid catalysts: Case study of TiO2/SiO2 as a catalyst for the dehydration of isobutanol
Buniazet Z, Couble J, Bianchi D, Rivallan M, Cabiac A, Maury S, Loridant S |
| 135 - 145 |
Highly efficient PdAg catalyst using a reducible Mg-Ti mixed oxide for selective hydrogenation of acetylene: Role of acidic and basic sites
Liu YA, Zhao JY, He YF, Feng JT, Wu T, Li DQ |
| 135 - 145 |
Highly efficient PdAg catalyst using a reducible Mg-Ti mixed oxide for selective hydrogenation of acetylene: Role of acidic and basic sites
Liu YA, Zhao JY, He YF, Feng JT, Wu T, Li DQ |
| 146 - 150 |
A green approach for arylation of phenols using iron catalysis in water under aerobic conditions
Sindhu KS, Ujwaldev SM, Krishnan KK, Anilkumar G |
| 146 - 150 |
A green approach for arylation of phenols using iron catalysis in water under aerobic conditions
Sindhu KS, Ujwaldev SM, Krishnan KK, Anilkumar G |
| 151 - 159 |
Active sites and mechanism on nitrogen-doped carbon catalyst for hydrogen evolution reaction
Long GF, Wan K, Liu MY, Liang ZX, Piao JH, Tsiakaras P |
| 151 - 159 |
Active sites and mechanism on nitrogen-doped carbon catalyst for hydrogen evolution reaction
Long GF, Wan K, Liu MY, Liang ZX, Piao JH, Tsiakaras P |
| 160 - 167 |
Oxidative C(OH)-C bond cleavage of secondary alcohols to acids over a copper catalyst with molecular oxygen as the oxidant
Wang M, Lu JM, Li LH, Li HJ, Liu HF, Wang F |
| 160 - 167 |
Oxidative C(OH)-C bond cleavage of secondary alcohols to acids over a copper catalyst with molecular oxygen as the oxidant
Wang M, Lu JM, Li LH, Li HJ, Liu HF, Wang F |
| 168 - 176 |
Acid and base coexisted heterogeneous catalysts supported on hypercrosslinked polymers for one-pot cascade reactions
Wang KW, Jia ZF, Yang XK, Wang L, Gu YL, Tan BE |
| 168 - 176 |
Acid and base coexisted heterogeneous catalysts supported on hypercrosslinked polymers for one-pot cascade reactions
Wang KW, Jia ZF, Yang XK, Wang L, Gu YL, Tan BE |
| 177 - 188 |
Direct synthesis of bulk AlPON basic catalysts in ionic liquids
Saugar AI, Marquez-Alvarez C, Perez-Pariente J |
| 177 - 188 |
Direct synthesis of bulk AlPON basic catalysts in ionic liquids
Saugar AI, Marquez-Alvarez C, Perez-Pariente J |
| 189 - 199 |
NbOx/CeO2-rods catalysts for oxidative dehydrogenation of propane: Nb-CeO2 interaction and reaction mechanism
You R, Zhang XY, Luo LF, Pan Y, Pan HB, Yang JZ, Wu LH, Zheng XS, Jin YK, Huang WX |
| 189 - 199 |
NbOx/CeO2-rods catalysts for oxidative dehydrogenation of propane: Nb-CeO2 interaction and reaction mechanism
You R, Zhang XY, Luo LF, Pan Y, Pan HB, Yang JZ, Wu LH, Zheng XS, Jin YK, Huang WX |
| 200 - 211 |
Enhancing activity for carbon dioxide methanation by encapsulating (111) facet Ni particle in metal-organic frameworks at low temperature
Zhen WL, Gao F, Tian B, Ding P, Deng YB, Li Z, Gao HB, Lu GX |
| 200 - 211 |
Enhancing activity for carbon dioxide methanation by encapsulating (111) facet Ni particle in metal-organic frameworks at low temperature
Zhen WL, Gao F, Tian B, Ding P, Deng YB, Li Z, Gao HB, Lu GX |
| 212 - 222 |
In situ mosaic strategy generated Co-based N-doped mesoporous carbon for highly selective hydrogenation of nitroaromatics
Zhang FW, Zhao C, Chen S, Li H, Yang HQ, Zhang XM |
| 212 - 222 |
In situ mosaic strategy generated Co-based N-doped mesoporous carbon for highly selective hydrogenation of nitroaromatics
Zhang FW, Zhao C, Chen S, Li H, Yang HQ, Zhang XM |
| 223 - 232 |
Boron-modified activated carbon supporting low-content Au-based catalysts for acetylene hydrochlorination
Jia Y, Hu RS, Zhou QH, Wang HY, Gao X, Zhang J |
| 223 - 232 |
Boron-modified activated carbon supporting low-content Au-based catalysts for acetylene hydrochlorination
Jia Y, Hu RS, Zhou QH, Wang HY, Gao X, Zhang J |
| 233 - 245 |
Hierarchical zinc-copper oxide hollow microspheres as active Rochow reaction catalysts: The formation and effect of charge transferable interfaces
Zhang Y, Ji YJ, Li J, Liu HZ, Zhong ZY, Su FB |
| 233 - 245 |
Hierarchical zinc-copper oxide hollow microspheres as active Rochow reaction catalysts: The formation and effect of charge transferable interfaces
Zhang Y, Ji YJ, Li J, Liu HZ, Zhong ZY, Su FB |
| 246 - 255 |
Energy-absorption-based explanation of the TiO2/C photocatalytic activity enhancement mechanism
Yuan Y, Ruan ZH, Huang X, Jiang YQ, Tan HP |
| 246 - 255 |
Energy-absorption-based explanation of the TiO2/C photocatalytic activity enhancement mechanism
Yuan Y, Ruan ZH, Huang X, Jiang YQ, Tan HP |
| 256 - 264 |
Optimization of plasmon-induced photocatalysis in electrospun Au/CeO2 hybrid nanofibers for selective oxidation of benzyl alcohol
Li BX, Zhang BS, Nie SB, Shao LZ, Hu LY |
| 256 - 264 |
Optimization of plasmon-induced photocatalysis in electrospun Au/CeO2 hybrid nanofibers for selective oxidation of benzyl alcohol
Li BX, Zhang BS, Nie SB, Shao LZ, Hu LY |
| 265 - 275 |
Gas phase oxidation of furfural to maleic anhydride on V2O5/gamma-Al2O3 catalysts: Reaction conditions to slow down the deactivation
Alonso-Fagundez N, Ojeda M, Mariscal R, Fierro JLG, Granados ML |
| 265 - 275 |
Gas phase oxidation of furfural to maleic anhydride on V2O5/gamma-Al2O3 catalysts: Reaction conditions to slow down the deactivation
Alonso-Fagundez N, Ojeda M, Mariscal R, Fierro JLG, Granados ML |
| 276 - 281 |
Silver nanoparticles encapsulated by metal-organic-framework give the highest turnover frequencies of 10(5) h(-1) for three component reaction by microwave-assisted heating
Li D, Dai XP, Zhang X, Zhuo HY, Jiang Y, Yu YB, Zhang PF, Huang XL, Wang H |
| 276 - 281 |
Silver nanoparticles encapsulated by metal-organic-framework give the highest turnover frequencies of 10(5) h(-1) for three component reaction by microwave-assisted heating
Li D, Dai XP, Zhang X, Zhuo HY, Jiang Y, Yu YB, Zhang PF, Huang XL, Wang H |
| 282 - 290 |
ZrO2-based unconventional catalysts for non-oxidative propane dehydrogenation: Factors determining catalytic activity
Otroshchenko T, Kondratenko VA, Rodemerck U, Linke D, Kondratenko EV |
| 282 - 290 |
ZrO2-based unconventional catalysts for non-oxidative propane dehydrogenation: Factors determining catalytic activity
Otroshchenko T, Kondratenko VA, Rodemerck U, Linke D, Kondratenko EV |
| 291 - 299 |
New insights into Cu/SSZ-13 SCR catalyst acidity. Part I: Nature of acidic sites probed by NH3 titration
Luo JY, Gao F, Kamasamudram K, Currier N, Peden CHF, Yezerets A |
| 291 - 299 |
New insights into Cu/SSZ-13 SCR catalyst acidity. Part I: Nature of acidic sites probed by NH3 titration
Luo JY, Gao F, Kamasamudram K, Currier N, Peden CHF, Yezerets A |
| 300 - 305 |
A mechanistic basis for the effect of aluminum content on ethene selectivity in methanol-to-hydrocarbons conversion on HZSM-5
Khare R, Liu ZH, Han Y, Bhan A |
| 300 - 305 |
A mechanistic basis for the effect of aluminum content on ethene selectivity in methanol-to-hydrocarbons conversion on HZSM-5
Khare R, Liu ZH, Han Y, Bhan A |
| 306 - 313 |
Highly selective and efficient photocatalytic reduction of nitrate in water by a tandem reaction system consisting of Pt/TiO2 and SnPd/Al2O3: A comparative study of the tandem reaction system with a typical semiconductor photocatalyst, SnPd/TiO2
Hirayama J, Kamiya Y |
| 306 - 313 |
Highly selective and efficient photocatalytic reduction of nitrate in water by a tandem reaction system consisting of Pt/TiO2 and SnPd/Al2O3: A comparative study of the tandem reaction system with a typical semiconductor photocatalyst, SnPd/TiO2
Hirayama J, Kamiya Y |
| 314 - 320 |
Synthesis of bio-inspired mononuclear nickel hydrogen production catalysts and photocatalytic efficiency improvement with porphyrin covalently functionalized graphene nanohybrid
Liu XF, Li RX, Ren XT, Yin YB, Mei SK, Liu T, Yan J |
| 314 - 320 |
Synthesis of bio-inspired mononuclear nickel hydrogen production catalysts and photocatalytic efficiency improvement with porphyrin covalently functionalized graphene nanohybrid
Liu XF, Li RX, Ren XT, Yin YB, Mei SK, Liu T, Yan J |
