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Untitled
[Anonymous] |
| 2 - 45 |
State of the art and perspectives in catalytic processes for CO2 conversion into chemicals and fuels: The distinctive contribution of chemical catalysis and biotechnology
Aresta M, Dibenedetto A, Quaranta E |
| 46 - 51 |
Solid poly-N-heterocyclic carbene catalyzed CO2 reduction with hydrosilanes
Riduan SN, Ying JY, Zhang YG |
| 52 - 61 |
Synthesis of carbonates and related compounds incorporating CO2 using ionic liquid-type catalysts: State-of-the-art and beyond
Bobbink FD, Dyson PJ |
| 62 - 67 |
Quantitative aqueous phase formic acid dehydrogenation using iron(II) based catalysts
Montandon-Clerc M, Dalebrook AF, Laurenczy G |
| 68 - 74 |
Mechanistic aspects of CO2 activation mediated by phenyl yttrium cation: A combined experimental/theoretical study
Firouzbakht M, Schlangen M, Kaupp M, Schwarz H |
| 86 - 96 |
Mechanism of CO2 reduction by H-2 on Ru(0001) and general selectivity descriptors for late-transition metal catalysts
Avanesian T, Gusmao GS, Christopher P |
| 97 - 105 |
On the activity of supported Au catalysts in the liquid phase hydrogenation of CO2 to formates
Filonenko GA, Vrijburg WL, Hensen EJM, Pidko EA |
| 106 - 114 |
The Cu-ZnO synergy in methanol synthesis Part 3: Impact of the composition of a selective Cu@ZnOx core-shell catalyst on methanol rate explained by experimental studies and a concentric spheres model
Tisseraud C, Comminges C, Pronier S, Pouilloux Y, Le Valant A |
| 115 - 126 |
CO2 hydrogenation on Pt, PtiSiO(2) and Pt/TiO2: Importance of synergy between Pt and oxide support
Kattel S, Yan BH, Chen JGG, Liu P |
| 127 - 132 |
High-pressure advantages in stoichiometric hydrogenation of carbon dioxide to methanol
Gaikwad R, Bansode A, Urakawa A |
| 133 - 146 |
Pd/ZnO catalysts for direct CO2 hydrogenation to methanol
Bahruji H, Bowker M, Hutchings G, Dimitratos N, Wells P, Gibson E, Jones W, Brookes C, Morgan D, Lalev G |
| 147 - 156 |
Low temperature CO2 hydrogenation to alcohols and hydrocarbons over Mo2C supported metal catalysts
Chen Y, Choi SM, Thompson LT |
| 157 - 167 |
Enhanced CO2 hydrogenation to methanol over CuZn nanoalloy in Ga modified Cu/ZnO catalysts
Li MMJ, Zeng ZY, Liao FL, Hong XL, Tsang SCE |
| 168 - 177 |
Reforming and oxidative dehydrogenation of ethane with CO2 as a soft oxidant over bimetallic catalysts
Myint M, Yan BH, Wan J, Zhao S, Chen JGG |
| 178 - 184 |
Carbon dioxide methanation over Ni catalysts supported on various metal oxides
Muroyama H, Tsuda Y, Asakoshi T, Masitah H, Okanishi T, Matsui T, Eguchi K |
| 185 - 195 |
Kinetic modeling and transient DRIFTS-MS studies of CO2 methanation over Ru/Al2O3 catalysts
Wang X, Hong YC, Shi H, Szanyi J |
| 196 - 207 |
Intrinsic reactivity of Ni, Pd and Pt surfaces in dry reforming and competitive reactions: Insights from first principles calculations and microkinetic modeling simulations
Foppa L, Silaghi MC, Larmier K, Comas-Vives A |
| 208 - 214 |
Dry-reforming of methane over bimetallic Ni-M/La2O3 (M = Co, Fe): The effect of the rate of La2O2CO3 formation and phase stability on the catalytic activity and stability
Tsoukalou A, Imtiaz Q, Kim SM, Abdala PM, Yoon S, Muller CR |
| 215 - 231 |
Opportunities and challenges in the electrocatalysis of CO2 and CO reduction using bifunctional surfaces: A theoretical and experimental study of Au-Cd alloys
Jovanov ZP, Hansen HA, Varela AS, Malacrida P, Peterson AA, Norskov JK, Stephens IEL, Chorkendorff I |
| 232 - 239 |
Cu2O-loaded gas diffusion electrodes for the continuous electrochemical reduction of CO2 to methanol
Albo J, Irabien A |
| 240 - 247 |
Electro-carboxylation of butadiene and ethene over Pt and Ni catalysts
Steinmann SN, Michel C, Schwiedernoch R, Wu MJ, Sautet P |
| 248 - 256 |
Screening of material libraries for electrochemical CO2 reduction catalysts - Improving selectivity of Cu by mixing with Co
Grote JP, Zeradjanin AR, Cherevko S, Savan A, Breitbach B, Ludwig A, Mayrhofer KJJ |
| 257 - 265 |
Promotional effect of surface hydroxyls on electrochemical reduction of CO2 over SnOx/Sn electrode
Cui CN, Han JY, Zhu XL, Liu X, Wang H, Mei DH, Ge QF |
| 266 - 277 |
Synergistic effects in silver-indium electrocatalysts for carbon dioxide reduction
Larrazabal GO, Martin AJ, Mitchell S, Hauert R, Perez-Ramirez J |
| 278 - 289 |
Photocatalyses of Ru(II)-Re(I) binuclear complexes connected through two ethylene chains for CO2 reduction
Ohkubo K, Yamazaki Y, Nakashima T, Tamaki Y, Koike K, Ishitani O |
