Publications

Fuel-Cell System Integration

G.A. Anyenya, R.J. Braun, N.P. Sullivan, “Modeling of a novel 4.5 kWe multi-stack solid-oxide fuel cell assembly for combined heat and power,” Journal of Energy Conversion and Management, DOI: 10.1016/j.enconman.2017.02.071, 140 (2017) 247–259.

G. Anyenya, B. Haun, M. Daubenspeck, R. Braun, N.P. Sullivan, “Experimental testing of a novel 4.5 kWe multi-stack solid-oxide fuel cell assembly for combined heat and power,” Journal of Electrochemical Energy Conversion and Storage, DOI: 10.1115/1.4035352 13 (2016) 041001-01 – 041001-8.

N.P. Sullivan, G. Anyenya, B. Haun, M. Daubenspeck, J. Bonadies, R. Kerr, B. Fischer, A. Wright, G. Jones, R. Li, M. Wall, A. Forbes, M. Savage, “In-ground operation of geothermic fuel cells for unconventional oil and gas recovery,” Journal of Power Sources DOI: 10.1016/j.jpowsour.2015.10.093 302 (2016) 402-409.

Materials for Fuel Cells and Electrochemical Devices

H. Ding, N.P. Sullivan, S. Ricote, “Double perovskite Ba2FeMoO6-d as fuel electrode for protonic-ceramic membranes” Solid State Ionics 306 (2017) 97-103.

N.S. Patki, S. Ricote, J.D. Way, “Fabrication of reducing atmosphere electrodes (fuel electrodes) by electroless plating of copper on BaZr0.9-xCexY0.1O3-d – a proton-conducting ceramic” International Journal of Hydrogen Energy 42 (2017) 16911-16919.

W. Acuña, J. F. Tellez, M.A. Macías, P. Roussel, S. Ricote, G. H. Gauthier, “Synthesis and characterization of BaGa2O4 and Ba3Co2O6(CO3)0.6 compounds in the search of alternative materials for Proton Ceramic Fuel Cell (PCFC)” Solid State Science 71 (2017) 61-68.

W.A. Rosensteel, S. Ricote, N.P. Sullivan, “Hydrogen permeation through dense BaCe0.8Y0.2O3-d–Ce0.8Y0.2O2-d composite–ceramic hydrogen separation membranes” International Journal of Hydrogen Energy 41 (2016) 2598-2606.

M. Dippon, S. Babiniec, H. Ding, S. Ricote, N. P. Sullivan, “Exploring electronic conduction through BaCexZr0.9-xY0.1O3-d proton-conducting ceramics” Solid State Ionics 286 (2016) 117-121.

D.R. Clark, H. Zhu, D. R. Diercks, S. Ricote, R.J. Kee, A. Almansoori, B.P. Gorman, and R. O’Hayre, “Probing grain-boundary chemistry and electronic structure in proton conducting oxides by Atom Probe Tomography” NanoLetters 16 (11) (2016) 6924–6930.

C. Chatzichristodoulou, S. Ricote, S.P.V. Foghmoes, J. Glasscock, A. Kaiser, P.V. Hendriksen, Enhanced reducibility and electronic conductivity of Nb- or W-doped Ce0.9Gd0.1O1.95-d” Solid State Ionics 269 (2015) 51-56.

J. S. Fish, S. Ricote, R. O’Hayre and N. Bonanos, “Electrical properties and flux performance of composite ceramic hydrogen separation membranes,” Journal of Materials Chemistry A 3 (2015) 5392-5401.

H. Zhu, S. Ricote, W.G. Coors, R.J. Kee, “Interpreting equilibrium-conductivity and conductivity-relaxation measurements to establish thermodynamic and transport properties for multiple charged defect conducting ceramics” Faraday Discussions 182 (2015) 49-74.

S.M. Babiniec, S. Ricote, N.P. Sullivan, “Characterization of ionic fluxes of BaCe0.2Zr0.7Y0.1O3-d-based devices in galvanic and electrolytic operation,” International Journal of Hydrogen Energy 40 (2015) 9278-9286.

M. Della Negra, W. Zhang, N. Bonanos and S. Ricote, “Leaching of BaCe0.9-xZrxY0.1O3-d in aqueous slurries and investigation of the degradation products,” Journal of Materials Science 49 (2014) 2588-2595.

S. Ricote, A. Manerbino, N.P Sullivan, W.G. Coors, “Preparation of dense mixed electron- and proton-conducting ceramic composite materials by co-doping using solid-state reactive sintering: BaCe0.8Y0.1M0.1O3-d – Ce0.8Y0.1M0.1O2-d (M=Y, Yb, Er, Eu),” Journal of Materials Science 49 (12) (2014) 4332-4340.

H. Zhu , S. Ricote, W.G. Coors, C. Chatzichristodoulou, R.J. Kee, “Equilibrium and transient conductivity for gadolinium-doped ceria under large perturbations: II. Modeling” Solid State Ionics 268 (2014) 198-207.

"Effects of the fabrication process on the grain-boundary resistance in BaZr0.9Y0.1O3-d” S. Ricote, N. Bonanos, A. Manerbino, N.P. Sullivan, and W.G. Coors, Journal of Materials Chemistry A 2 (2014) 16107-16115.

S.M. Babiniec, S. Ricote, N.P. Sullivan, “Infiltrated lanthanum nickelate cathodes for use with BaCe0.2Zr0.7Y0.1O3−d proton conducting electrolytes,” Journal of the Electrochemical Society 161 (6) (2014) F1-F7.

S. Ricote, H. Zhu, W.G. Coors, C. Chatzichristodoulou, R.J. Kee, “Equilibrium and transient conductivity for gadolinium-doped ceria under large perturbations: I. Experiments” Solid State Ionics 265 (2014) 22-28.

J.S. Fish, S. Ricote, T. Holgate, F. Lenrick, L R. Wallenberg, R. O’Hayre, N. Bonanos, “Synthesis by spark plasma sintering of a BaCe0.2Zr0.7Y0.1O3-d / Sr0.95Ti0.9Nb0.1O3-d (BCZY27 / STN95) composite material for hydrogen separation membranes, Journal of Materials Science 48 (2013) 6177-6785.

C. Moyer, N.P. Sullivan, H. Zhu, R.J. Kee, “Polarization characteristics and chemistry in reversible tubular solid-oxide cells operating on mixtures of H2, CO, H2O and CO2,” Journal of the Electrochemical Society 158 (2) B117-B131 (2011).

D. Storjohann, J. Daggett, N.P. Sullivan, S. Menzer, D. Beeaff, “Comparative study of solid-oxide fuel cells fabricated with conventional and Reaction-Sintered 8YSZ powders,” Journal of Power Sources 193 (2009) 706–712.

Fuel Processing for Fuel-Cell Applications

B. Blakeley, N.P. Sullivan, “Catalytic partial oxidation and autothermal reforming of methane for hydrogen and syngas production in a novel ceramic microchannel reactor,” International Journal of Hydrogen Energy DOI: 10.1016/j.ijhydene.2015.12.064 41:6 (2016) 3794-3802.

D.M. Murphy, M. Parker, N.P. Sullivan, “The interplay of heat transfer and endothermic chemistry within a ceramic microchannel reactor,” ASME Journal of Thermal Science and Engineering Applications, DOI: 10.1115/1.4026296 6 031007 (2014).

D.M. Murphy, J. Blasi, M. Parker, A. Manerbino, R.J. Kee, N.P. Sullivan, “Methane steam reforming in a novel ceramic microchannel reactor,” International Journal of Hydrogen Energy 38:21 (2013) 8741-8750.

W.A. Rosensteel, S.M. Babiniec, D.D. Storjohann, J. Persky, N.P. Sullivan, “Use of anode barrier layers in tubular solid-oxide fuel cells for robust operation on hydrocarbon fuels,” Journal of Power Sources 205 (2012) 108– 113.

D.M. Murphy, A.E. Richards, A. Colclasure, W.A. Rosensteel, N.P. Sullivan, “Biogas fuel reforming for solid oxide fuel cells,” Journal of Renewable and Sustainable Energy 4 (2012) 023106.

N.E. McGuire, N.P. Sullivan, O. Deutschmann, H. Zhu, R.J. Kee, “Dry reforming of methane in a stagnation-flow reactor using Rh supported on strontium-substituted hexaaluminate,” Applied Catalysis A: General 394 257–265 (2011).

A.E. Richards, M.G. McNeeley, R.J. Kee, N.P. Sullivan, “Gas transport and internal-reforming chemistry in Ni–YSZ and ferritic-steel supports for solid-oxide fuel cells,” Journal of Power Sources 196 10010 – 10018 (2011).

R.J. Kee, B.B. Almand, J.M. Blasi, B.L. Rosen, M. Hartmann, N.P. Sullivan, H. Zhu, A.R. Manerbino, S. Menzer, W.G. Coors, J.L. Martin, “The design, fabrication, and evaluation of a ceramic counter-flow microchannel heat exchanger,” Applied Thermal Engineering 31 (2011) 2004 – 2012.

N. McGuire, N.P. Sullivan, R. J. Kee, H. Zhu, M. Kaufman, J. Nabity, J. Engel, D. Wickham, “Steam and dry reforming of methane over Rh using a Sr-substituted hexaaluminate support,” Chemical Engineering Science 64 (2009) 5231 – 5239.

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