Enhanced carbon-resistant dry reforming Fe-Ni catalyst: Role of Fe SA Theofanidis, VV Galvita, H Poelman, GB Marin Acs Catalysis 5 (5), 3028-3039, 2015 | 464 | 2015 |
Super-dry reforming of methane intensifies CO2 utilization via Le Chatelier’s principle LC Buelens, VV Galvita, H Poelman, C Detavernier, GB Marin Science 354 (6311), 449-452, 2016 | 425 | 2016 |
Ethane dehydrogenation on pt/mg (al) o and ptsn/mg (al) o catalysts V Galvita, G Siddiqi, P Sun, AT Bell Journal of Catalysis 271 (2), 209-219, 2010 | 284 | 2010 |
Production of hydrogen from dimethyl ether VV Galvita, GL Semin, VD Belyaev, TM Yurieva, VA Sobyanin Applied Catalysis A: General 216 (1-2), 85-90, 2001 | 252 | 2001 |
Catalyst performance of novel Pt/Mg (Ga)(Al) O catalysts for alkane dehydrogenation G Siddiqi, P Sun, V Galvita, AT Bell Journal of Catalysis 274 (2), 200-206, 2010 | 251 | 2010 |
Synthesis gas production by steam reforming of ethanol VV Galvita, GL Semin, VD Belyaev, VA Semikolenov, P Tsiakaras, ... Applied Catalysis A: General 220 (1-2), 123-127, 2001 | 207 | 2001 |
Carbon gasification from Fe–Ni catalysts after methane dry reforming SA Theofanidis, R Batchu, VV Galvita, H Poelman, GB Marin Applied Catalysis B: Environmental 185, 42-55, 2016 | 204 | 2016 |
CeO2-Modified Fe2O3 for CO2 Utilization via Chemical Looping VV Galvita, H Poelman, V Bliznuk, C Detavernier, GB Marin Industrial & Engineering Chemistry Research 52 (25), 8416-8426, 2013 | 187 | 2013 |
Making chemicals with electricity KM Van Geem, VV Galvita, GB Marin Science 364 (6442), 734-735, 2019 | 139 | 2019 |
Steam reforming of glycerol: The experimental activity of La1− xCexNiO3 catalyst in comparison to the thermodynamic reaction equilibrium Y Cui, V Galvita, L Rihko-Struckmann, H Lorenz, K Sundmacher Applied Catalysis B: Environmental 90 (1-2), 29-37, 2009 | 137 | 2009 |
Catalyst-assisted chemical looping for CO2 conversion to CO VV Galvita, H Poelman, C Detavernier, GB Marin Applied Catalysis B: Environmental 164, 184-191, 2015 | 126 | 2015 |
Solid electrolyte membrane reactors: Status and trends K Sundmacher, LK Rihko-Struckmann, V Galvita Catalysis Today 104 (2-4), 185-199, 2005 | 122 | 2005 |
The positive role of hydrogen on the dehydrogenation of propane on Pt (111) S Saerens, MK Sabbe, VV Galvita, EA Redekop, MF Reyniers, GB Marin ACS catalysis 7 (11), 7495-7508, 2017 | 121 | 2017 |
Bifunctional Ni-Ca based material for integrated CO2 capture and conversion via calcium-looping dry reforming J Hu, P Hongmanorom, VV Galvita, Z Li, S Kawi Applied Catalysis B: Environmental 284, 119734, 2021 | 120 | 2021 |
Upgrading the value of anaerobic digestion via chemical production from grid injected biomethane K Verbeeck, LC Buelens, VV Galvita, GB Marin, KM Van Geem, K Rabaey Energy & Environmental Science 11 (7), 1788-1802, 2018 | 116 | 2018 |
Ethanol to higher hydrocarbons over Ni, Ga, Fe-modified ZSM-5: Effect of metal content K Van der Borght, VV Galvita, GB Marin Applied Catalysis A: General 492, 117–126, 2015 | 115 | 2015 |
Controlling the stability of a Fe–Ni reforming catalyst: Structural organization of the active components SA Theofanidis, VV Galvita, M Sabbe, H Poelman, C Detavernier, ... Applied Catalysis B: Environmental 209, 405-416, 2017 | 114 | 2017 |
Delivering a Modifying Element to Metal Nanoparticles via Support: Pt–Ga Alloying during the Reduction of Pt/Mg(Al,Ga)Ox Catalysts and Its Effects on Propane … EA Redekop, VV Galvita, H Poelman, V Bliznuk, C Detavernier, GB Marin ACS Catalysis 4 (6), 1812-1824, 2014 | 113 | 2014 |
Advanced Chemical Looping Materials for CO2 Utilization: A Review J Hu, VV Galvita, H Poelman, GB Marin Materials 11 (7), 1187, 2018 | 111 | 2018 |
The role of CO2 in the dehydrogenation of propane over WOx–VOx/SiO2 I Ascoop, VV Galvita, K Alexopoulos, MF Reyniers, P Van Der Voort, ... Journal of Catalysis 335, 1-10, 2016 | 104 | 2016 |