| 1 - 10 |
Facet-dependent electrocatalytic water splitting reaction on CeO2: A DFT + U study
Wu TT, Lopez N, Vegge T, Hansen HA |
| 11 - 19 |
Selectivity enhancement in the g-C3N4-catalyzed conversion of glucose to gluconic acid and glucaric acid by modification of cobalt thioporphyrazine
Zhang QQ, Xiang XY, Ge YC, Yang CJ, Zhang BG, Deng KJ |
| 20 - 29 |
Controllable growth of palladium on gold multipod nanoparticles and their enhanced electrochemical oxygen reduction reaction performances
Mai HD, Kim S, Yoo H |
| 30 - 37 |
Particle size effects in copper-catalyzed hydrogenation of ethyl acetate
Beerthuis R, de Rijk JW, Deeley JMS, Sunley GJ, de Jong KP, de Jongh PE |
| 38 - 51 |
Ab initio enhanced sampling kinetic study on MTO ethene methylation reaction
Bailleul S, Dedecker K, Cnudde P, Vanduyfhuys L, Waroquier M, Van Speybroeck V |
| 52 - 65 |
CO2-oxidative ethane dehydrogenation over highly efficient carbon-resistant Fe-catalysts
Theofanidis SA, Loizidis C, Heracleous E, Lemonidou AA |
| 66 - 76 |
Pd/UIO-66/sepiolite: Toward highly efficient dual-supported Pd-based catalyst for dehydrogenation of formic acid at room temperature
Zou LY, Chen M, Zhang QY, Mao QF, Huang YQ, Liang ZW |
| 77 - 83 |
Atomically embedded asymmetrical dual-metal dimers on N-doped graphene for ultra-efficient nitrogen reduction reaction
He TW, Santiago ARP, Du AJ |
| 84 - 90 |
Unveiling the gas-dependent sintering behavior of Au-TiO2 catalysts via environmental transmission electron microscopy
Li GX, Fang K, Chen YZ, Ou Y, Mao SJ, Yuan WT, Wang Y, Yang HS, Zhang Z, Wang Y |
| 91 - 103 |
Functionalization of graphene oxide sheets with magnetite nanoparticles for the adsorption of copper ions and investigation of its potential catalytic activity toward the homocoupling of alkynes under green conditions
Chaabane L, Beyou E, Luneau D, Baouab MHV |
| 104 - 121 |
Boosting multiple photo-assisted and temperature controlled reactions with a single redox-switchable catalyst: Solvents as internal substrates and reducing agent
Baruah MJ, Sharma M, Das B, Saikia P, Saikia L, Roy S, Karunakar GV, Bhattacharyya PK, Bania KK |
| 122 - 129 |
Mechanistic study on nickel-molybdenum based electrocatalysts for the hydrogen evolution reaction
Zhou YF, Lin TT, Luo XL, Yan ZB, Wu J, Wang JS, Shen Y |
| 130 - 140 |
Oxygen evolution electrocatalysis using mixed metal oxides under acidic conditions: Challenges and opportunities
Gu XK, Camayang JCA, Samira S, Nikolla E |
| 141 - 153 |
Understanding the effect of Mo2C support on the activity of Cu for the hydrodeoxygenation of glycerol
You KE, Ammal SC, Lin ZX, Wan WM, Chen JGG, Heyden A |
| 154 - 163 |
Insight into the nature of Bronsted acidity of Pt-(WOx)(n)-H model catalysts in glycerol hydrogenolysis
Zhou W, Li Y, Wang XF, Yao DW, Wang Y, Huang SY, Li W, Zhao YJ, Wang SP, Ma XB |
| 164 - 170 |
Probing the performance of structurally controlled platinum-cobalt bimetallic catalysts for selective hydrogenation of cinnamaldehyde
Su JF, Shi W, Liu XC, Zhang LY, Cheng SB, Zhang Y, Botton GA, Zhang BS |
