| Solar thermochemical production of hydrogen––a review A Steinfeld Solar energy 78 (5), 603-615, 2005 | 1341 | 2005 |
| High-flux solar-driven thermochemical dissociation of CO2 and H2O using nonstoichiometric ceria WC Chueh, C Falter, M Abbott, D Scipio, P Furler, SM Haile, A Steinfeld Science 330 (6012), 1797-1801, 2010 | 1214 | 2010 |
| Solar hydrogen production via a two-step water-splitting thermochemical cycle based on Zn/ZnO redox reactions A Steinfeld International journal of hydrogen energy 27 (6), 611-619, 2002 | 816 | 2002 |
| Hydrogen adsorption and storage on porous materials KM Thomas Catalysis today 120 (3-4), 389-398, 2007 | 511 | 2007 |
| Concentrating solar thermal power and thermochemical fuels M Romero, A Steinfeld Energy & Environmental Science 5 (11), 9234-9245, 2012 | 508 | 2012 |
| Solar thermochemical process technology A Steinfeld, R Palumbo Encyclopedia of physical science and technology 15 (1), 237-56, 2001 | 439 | 2001 |
| Syngas production by simultaneous splitting of H2O and CO 2 via ceria redox reactions in a high-temperature solar reactor P Furler, JR Scheffe, A Steinfeld Energy & Environmental Science 5 (3), 6098-6103, 2012 | 416 | 2012 |
| Solar Thermochemical CO2 Splitting Utilizing a Reticulated Porous Ceria Redox System P Furler, J Scheffe, M Gorbar, L Moes, U Vogt, A Steinfeld Energy & Fuels 26 (11), 7051-7059, 2012 | 326 | 2012 |
| Production of solar hydrogen by a novel, 2-step, water-splitting thermochemical cycle Y Tamaura, A Steinfeld, P Kuhn, K Ehrensberger Energy 20 (4), 325-330, 1995 | 313 | 1995 |
| Solar-processed metals as clean energy carriers and water-splitters A Steinfeld, P Kuhn, A Reller, R Palumbo, J Murray, Y Tamaura International Journal of Hydrogen Energy 23 (9), 767-774, 1998 | 306 | 1998 |
| Amine-Based Nanofibrillated Cellulose As Adsorbent for CO2 Capture from Air C Gebald, JA Wurzbacher, P Tingaut, T Zimmermann, A Steinfeld Environmental science & technology 45 (20), 9101-9108, 2011 | 294 | 2011 |
| Optimum aperture size and operating temperature of a solar cavity-receiver A Steinfeld, M Schubnell Solar Energy 50 (1), 19-25, 1993 | 285 | 1993 |
| Packed-bed thermal storage for concentrated solar power–Pilot-scale demonstration and industrial-scale design G Zanganeh, A Pedretti, S Zavattoni, M Barbato, A Steinfeld Solar Energy 86 (10), 3084-3098, 2012 | 283 | 2012 |
| Oxygen exchange materials for solar thermochemical splitting of H2O and CO2: a review JR Scheffe, A Steinfeld Materials Today 17 (7), 341-348, 2014 | 279 | 2014 |
| Design aspects of solar thermochemical engineering—a case study: two-step water-splitting cycle using the Fe3O4/FeO redox system A Steinfeld, S Sanders, R Palumbo Solar Energy 65 (1), 43-53, 1999 | 279 | 1999 |
| Lanthanum–Strontium–Manganese Perovskites as Redox Materials for Solar Thermochemical Splitting of H2O and CO2 JR Scheffe, D Weibel, A Steinfeld Energy & Fuels 27 (8), 4250-4257, 2013 | 277 | 2013 |
| High-temperature thermal storage using a packed bed of rocks–heat transfer analysis and experimental validation M Hänchen, S Brückner, A Steinfeld Applied Thermal Engineering 31 (10), 1798-1806, 2011 | 272 | 2011 |
| A novel 50kW 11,000 suns high-flux solar simulator based on an array of xenon arc lamps J Petrasch, P Coray, A Meier, M Brack, P Haeberling, D Wuillemin, ... | 253 | 2007 |
| Tomography-based Monte Carlo determination of radiative properties of reticulate porous ceramics J Petrasch, P Wyss, A Steinfeld Journal of Quantitative Spectroscopy and Radiative Transfer 105 (2), 180-197, 2007 | 232 | 2007 |
| A solar chemical reactor for co-production of zinc and synthesis gas A Steinfeld, M Brack, A Meier, A Weidenkaff, D Wuillemin Energy 23 (10), 803-814, 1998 | 221 | 1998 |
Jonathan ScheffeUniversity of FloridaVerified email at ufl.edu
