harry bitter
harry bitter
Professor Biobased Commodity Chemisty, Wageningen University, The Netherlands
在 wur.nl 的电子邮件经过验证
Cobalt particle size effects in the Fischer− Tropsch reaction studied with carbon nanofiber supported catalysts
GL Bezemer, JH Bitter, HPCE Kuipers, H Oosterbeek, JE Holewijn, X Xu, ...
Journal of the American Chemical Society 128 (12), 3956-3964, 2006
Supported iron nanoparticles as catalysts for sustainable production of lower olefins
HMT Galvis, JH Bitter, CB Khare, M Ruitenbeek, AI Dugulan, KP de Jong
science 335 (6070), 835-838, 2012
Generation, characterization, and impact of mesopores in zeolite catalysts
S Van Donk, AH Janssen, JH Bitter, KP de Jong
Catalysis Reviews 45 (2), 297-319, 2003
On the origin of the cobalt particle size effects in Fischer− Tropsch catalysis
JP Den Breejen, PB Radstake, GL Bezemer, JH Bitter, V Frøseth, ...
Journal of the American Chemical Society 131 (20), 7197-7203, 2009
Carbon materials for catalysis
P Serp, JL Figueiredo
John Wiley & Sons, 2009
Electrocatalytic activity and stability of nitrogen-containing carbon nanotubes in the oxygen reduction reaction
S Kundu, TC Nagaiah, W Xia, Y Wang, SV Dommele, JH Bitter, M Santa, ...
The Journal of Physical Chemistry C 113 (32), 14302-14310, 2009
Carbon materials in catalysis
LR Radovic, F Rodriguez-Reinoso
Chemistry & physics of carbon, 261-376, 1996
Impact of the structure and reactivity of nickel particles on the catalytic growth of carbon nanofibers
ML Toebes, JH Bitter, AJ Van Dillen, KP de Jong
Catalysis today 76 (1), 33-42, 2002
Iron particle size effects for direct production of lower olefins from synthesis gas
HM Torres Galvis, JH Bitter, T Davidian, M Ruitenbeek, AI Dugulan, ...
Journal of the American chemical society 134 (39), 16207-16215, 2012
The influence of oxidation on the texture and the number of oxygen-containing surface groups of carbon nanofibers
ML Toebes, JMP van Heeswijk, JH Bitter, AJ Van Dillen, KP de Jong
Carbon 42 (2), 307-315, 2004
CO2 reforming of CH4 over Pt/ZrO2 catalysts promoted with La and Ce oxides
SM Stagg-Williams, FB Noronha, G Fendley, DE Resasco
Journal of Catalysis 194 (2), 240-249, 2000
Mono and bifunctional pathways of CO2/CH4reforming over Pt and Rh based catalysts
JH Bitter, K Seshan, JA Lercher
Journal of catalysis 176 (1), 93-101, 1998
The State of Zirconia supported platinum catalysts for CO2/CH4reforming
JH Bitter, K Seshan, JA Lercher
Journal of catalysis 171 (1), 279-286, 1997
Reaction pathways for the deoxygenation of vegetable oils and related model compounds
RW Gosselink, SAW Hollak, SW Chang, J van Haveren, KP de Jong, ...
ChemSusChem 6 (9), 1576-1594, 2013
Influence of oxygen-containing surface groups on the activity and selectivity of carbon nanofiber-supported ruthenium catalysts in the hydrogenation of cinnamaldehyde
ML Toebes, FF Prinsloo, JH Bitter, AJ van Dillen, KP de Jong
Journal of Catalysis 214 (1), 78-87, 2003
Tuning nitrogen functionalities in catalytically grown nitrogen-containing carbon nanotubes
S Van Dommele, A Romero-Izquirdo, R Brydson, KP De Jong, JH Bitter
Carbon 46 (1), 138-148, 2008
Effects of sodium and sulfur on catalytic performance of supported iron catalysts for the Fischer–Tropsch synthesis of lower olefins
HMT Galvis, ACJ Koeken, JH Bitter, T Davidian, M Ruitenbeek, ...
Journal of catalysis 303, 22-30, 2013
Sodium alanate nanoparticles− linking size to hydrogen storage properties
CP Balde, BPC Hereijgers, JH Bitter, KP Jong
Journal of the American Chemical Society 130 (21), 6761-6765, 2008
Deposition precipitation for the preparation of carbon nanofiber supported nickel catalysts
MK van der Lee, J van Dillen, JH Bitter, KP de Jong
Journal of the American Chemical Society 127 (39), 13573-13582, 2005
Carbon deposition during carbon dioxide reforming of methane—comparison between Pt/Al2O3 and Pt/ZrO2
K Nagaoka, K Seshan, K Aika, JA Lercher
Journal of Catalysis 197 (1), 34-42, 2001
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