Power‐to‐syngas: an enabling technology for the transition of the energy system? SR Foit, IC Vinke, LGJ de Haart, RA Eichel Angewandte Chemie International Edition 56 (20), 5402-5411, 2017 | 280 | 2017 |
Reaction of hydrogen/water mixtures on nickel‐zirconia cermet electrodes: II. AC polarization characteristics P Holtappels, IC Vinke, LGJ De Haart, U Stimming Journal of the electrochemical society 146 (8), 2976, 1999 | 165 | 1999 |
Recent results in Jülich solid oxide fuel cell technology development L Blum, LGJB De Haart, J Malzbender, NH Menzler, J Remmel, ... Journal of Power Sources 241, 477-485, 2013 | 164 | 2013 |
Reaction of CO/CO2 gas mixtures on Ni–YSZ cermet electrodes P Holtappels, LGJD Haart, U Stimming, IC Vinke, M Mogensen Journal of Applied Electrochemistry 29, 561-568, 1999 | 154 | 1999 |
Modeling of mass and heat transport in planar substrate type SOFCs T Ackmann, LGJ De Haart, W Lehnert, D Stolten Journal of The Electrochemical Society 150 (6), A783, 2003 | 140 | 2003 |
On the photoluminescence of semiconducting titanates applied in photoelectrochemical cells LGJ De Haart, AJ De Vries, G Blasse Journal of Solid State Chemistry 59 (3), 291-300, 1985 | 138 | 1985 |
The observation of exciton emission from rutile single crystals LGJ De Haart, G Blasse Journal of Solid State Chemistry France 61 (1), 135-136, 1986 | 125 | 1986 |
Photoelectrochemical properties of ferrites with the spinel structure LGJ De Haart, G Blasse Journal of the Electrochemical Society 132 (12), 2933, 1985 | 116 | 1985 |
Stack degradation in dependence of operation parameters; the real‐SOFC sensitivity analysis LGJ De Haart, J Mougin, O Posdziech, J Kiviaho, NH Menzler Fuel Cells 9 (6), 794-804, 2009 | 110 | 2009 |
Reaction of Hydrogen/Water Mixtures on Nickel‐Zirconia Cermet Electrodes: I. DC Polarization Characteristics P Holtappels, LGJ De Haart, U Stimming Journal of the Electrochemical Society 146 (5), 1620, 1999 | 109 | 1999 |
Long‐term testing of SOFC stacks at Forschungszentrum Jülich L Blum, U Packbier, IC Vinke, LGJ De Haart Fuel Cells 13 (4), 646-653, 2013 | 103 | 2013 |
Metal-supported solid oxide fuel cells with exceptionally high power density for range extender systems D Udomsilp, J Rechberger, R Neubauer, C Bischof, F Thaler, ... Cell Reports Physical Science 1 (6), 2020 | 99 | 2020 |
Anode‐supported solid oxide fuel cell achieves 70 000 hours of continuous operation L Blum, LGJ De Haart, J Malzbender, N Margaritis, NH Menzler Energy Technology 4 (8), 939-942, 2016 | 93 | 2016 |
Solid oxide fuel cell development at Forschungszentrum Juelich L Blum, HP Buchkremer, S Gross, A Gubner, LGJ De Haart, H Nabielek, ... Fuel Cells 7 (3), 204-210, 2007 | 79 | 2007 |
SOFC stack and system development at Forschungszentrum Jülich L Blum, P Batfalsky, Q Fang, LGJ De Haart, J Malzbender, N Margaritis, ... Journal of The Electrochemical Society 162 (10), F1199, 2015 | 77 | 2015 |
Three-dimensional computational fluid dynamics modelling and experimental validation of the Jülich Mark-F solid oxide fuel cell stack RT Nishida, SB Beale, JG Pharoah, LGJ de Haart, L Blum Journal of Power Sources 373, 203-210, 2018 | 69 | 2018 |
Operation of anode-supported thin electrolyte film solid oxide fuel cells at 800 C and below LGJ De Haart, K Mayer, U Stimming, IC Vinke Journal of power sources 71 (1-2), 302-305, 1998 | 68 | 1998 |
The nature of the luminescence of niobates MNbO3 (M= Li, Na, K) G Blasse, LGJ De Haart Materials chemistry and physics 14 (5), 481-484, 1986 | 65 | 1986 |
A kinetic study of the electrochemical vapor deposition of solid oxide electrolyte films on porous substrates YS Lin, LGJ De Haart, KJ De Vries, AJ Burggraaf Journal of the Electrochemical Society 137 (12), 3960, 1990 | 62 | 1990 |
Photoelectrochemical properties of MgTiO3 and other titanates with the ilmenite structure LGJ De Haart, AJ De Vries, G Blasse Materials research bulletin 19 (7), 817-824, 1984 | 61 | 1984 |