Publications

(Last updated September 2016)

1. Zhu, T., Fowler, D.E., Poeppelmeier, K.R., Han, M., and Barnett, S.A., Hydrogen Oxidation Mechanisms on Perovskite Solid Oxide Fuel Cell Anodes. Journal of The Electrochemical Society, 2016. 163(8): p. F952-F961.
2. Wang, H., Yakal-Kremski, K.J., Yeh, T., Rupp, G.M., Limbeck, A., Fleig, J., and Barnett, S.A., Mechanisms of Performance Degradation of (La,Sr)(Co,Fe)O3-δSolid Oxide Fuel Cell Cathodes. Journal of The Electrochemical Society, 2016. 163(6): p. F581-F585.
3. Scipioni, R., Jørgensen, P.S., Ngo, D.-T., Simonsen, S.B., Liu, Z., Yakal-Kremski, K.J., Wang, H., Hjelm, J., Norby, P., Barnett, S.A., and Jensen, S.H., Electron microscopy investigations of changes in morphology and conductivity of LiFePO4/C electrodes. Journal of Power Sources, 2016. 307: p. 259-269.
4. Liu, Z., Chen-Wiegart, Y.C., Wang, J., Barnett, S.A., and Faber, K.T., Three-Phase 3D Reconstruction of a LiCoO2 Cathode via FIB-SEM Tomography. Microsc Microanal, 2016. 22(1): p. 140-8.
5. Kennouche, D., Chen-Wiegart, Y.-c.K., Yakal-Kremski, K.J., Wang, J., Gibbs, J.W., Voorhees, P.W., and Barnett, S.A., Observing the microstructural evolution of Ni-Yttria-stabilized zirconia solid oxide fuel cell anodes. Acta Materialia, 2016. 103: p. 204-210.
6. Kennouche, D., Chen-Wiegart, Y.-c.K., Riscoe, C., Wang, J., and Barnett, S.A., Combined electrochemical and X-ray tomography study of the high temperature evolution of Nickel – Yttria Stabilized Zirconia solid oxide fuel cell anodes. Journal of Power Sources, 2016. 307: p. 604-612.
7. Gao, Z., Mogni, L.V., Miller, E.C., Railsback, J.G., and Barnett, S., A Perspective On Low-Temperature Solid Oxide Fuel Cells. Energy & Environmental Science, 2016.
8. Duffy, P.K., Barnett, S.A., and Mason, T.O., A Hemispherical Electrolyte Probe for Screening of Solid Oxide Fuel Cell Cathode Materials. Journal of The Electrochemical Society, 2016. 163(8): p. F802-F807.
9. Call, A.V., Railsback, J.G., Wang, H., and Barnett, S.A., Degradation of nano-scale cathodes: a new paradigm for selecting low-temperature solid oxide cell materials. Phys Chem Chem Phys, 2016. 18(19): p. 13216-22.
10. Yan, J., Gorai, P., Ortiz, B., Miller, S., Barnett, S.A., Mason, T., Stevanović, V., and Toberer, E.S., Material descriptors for predicting thermoelectric performance. Energy Environ. Sci., 2015. 8(3): p. 983-994.
11. Wendel, C.H., Gao, Z., Barnett, S.A., and Braun, R.J., Modeling and experimental performance of an intermediate temperature reversible solid oxide cell for high-efficiency, distributed-scale electrical energy storage. Journal of Power Sources, 2015. 283: p. 329-342.
12. Wang, H., Gao, Z., and Barnett, S.A., Anode-Supported Solid Oxide Fuel Cells Fabricated by Single Step Reduced-Temperature Co-Firing. Journal of The Electrochemical Society, 2015. 163(3): p. F196-F201.
13. Sumi, H., Kennouche, D., Yakal-Kremski, K., Suzuki, T., Barnett, S.A., Miller, D.J., Yamaguchi, T., Hamamoto, K., and Fujishiro, Y., Electrochemical and microstructural properties of Ni–(Y2O3)0.08(ZrO2)0.92–(Ce0.9Gd0.1)O1.95 anode-supported microtubular solid oxide fuel cells. Solid State Ionics, 2015.
14. Railsback, J.G., Gao, Z., and Barnett, S.A., Oxygen electrode characteristics of Pr2NiO4+δ-infiltrated porous (La0.9Sr0.1)(Ga0.8Mg0.2)O3–δ. Solid State Ionics, 2015. 274: p. 134-139.
15. Miller, E.C., Sherman, Q., Gao, Z., Voorhees, P.W., and Barnett, S.A., Stability of Infiltrated Nickel Anodes in Intermediate Temperature SOFCs, in SOFC-XIV, S.C. Singhal, Editor. 2015, ECS Transactions Glasgow.
16. Jensen, S.H., Graves, C., Mogensen, M., Wendel, C., Braun, R., Hughes, G., Gao, Z., and Barnett, S.A., Large-scale electricity storage utilizing reversible solid oxide cells combined with underground storage of CO2and CH4. Energy Environ. Sci., 2015. 8: p. 2471 – 2479.
17. Hughes, G.A., Railsback, J.G., Yakal-Kremski, K.J., Butts, D.M., and Barnett, S.A., Degradation of (LaSr)MnO-ZrYO composite electrodes during reversing current operation. Faraday Discuss, 2015.
18. Gao, Z., Zenou, V., Kennouche, D., Marks, L.D., and Barnett, S., Characteristics of Solid Oxide Cells with Zirconia/Ceria Bi-Layer Electrolytes Fabricated Utilizing Reduced-Temperature Firing. J. Mater. Chem. A, 2015.
19. Fowler, D.E., Messner, A.C., Miller, E.C., Slone, B.W., Barnett, S.A., and Poeppelmeier, K.R., Decreasing the Polarization Resistance of (La,Sr)CrO3−δSolid Oxide Fuel Cell Anodes by Combined Fe and Ru Substitution. Chemistry of Materials, 2015: p. 150514130523002.
20. Yakal-Kremski, K., Mogni, L.V., Montenegro-Hernandez, A., Caneiro, A., and Barnett, S.A., Determination of Electrode Oxygen Transport Kinetics Using Electrochemical Impedance Spectroscopy Combined with Three-Dimensional Microstructure Measurement: Application to Nd2NiO4+delta. Journal of the Electrochemical Society, 2014. 161(14): p. F1366-F1374.
21. Lu, Y., Kreller, C.R., Adler, S.B., Wilson, J.R., Barnett, S.A., Voorhees, P.W., Chen, H.Y., and Thornton, K., Performance Variability and Degradation in Porous La1-xSrxCoO3-  Electrodes. Journal of the Electrochemical Society, 2014. 161(4): p. F561-F568.
22. Kennouche, D., Hong, J., Noh, H.-S., Son, J.-W., and Barnett, S.A., Three-dimensional microstructure of high-performance pulsed-laser deposited Ni–YSZ SOFC anodes. Physical Chemistry Chemical Physics, 2014.
23. Jorgensen, P.S., Yakal-Kremski, K., Wilson, J., Bowen, J.R., and Barnett, S., On the accuracy of triple phase boundary lengths calculated from tomographic image data. Journal of Power Sources, 2014. 261: p. 198-205.
24. Gao, Z., Miller, E.C., and Barnett, S.A., A High Power Density Intermediate-Temperature Solid Oxide Fuel Cell with Thin (La0.9Sr0.1)(0.98)(Ga0.8Mg0.2)O3-delta Electrolyte and Nano-Scale Anode. Advanced Functional Materials, 2014. 24(36): p. 5703-5709.
25. Gao, Z., Kennouche, D., and Barnett, S.A., Reduced-temperature firing of solid oxide fuel cells with zirconia/ceria bi-layer electrolytes. Journal of Power Sources, 2014. 260: p. 259-263.
26. Gao, Z. and Barnett, S.A., Effects of Reduced Firing Temperature on Anode-Supported Solid Oxide Fuel Cells. Journal of the Electrochemical Society, 2014. 161(5): p. F600-F604.
27. Fowler, D.E., Haag, J., Boland, C., Bierschenk, D.M., Barnett, S.A., and Poeppelmeier, K.R., Stable, Low Polarization Resistance Solid Oxide Fuel Cell Anodes: La1-xSrxCr1-xFexO3-δ(x = 0.2 – 0.67). Chemistry of Materials, 2014: p. 140428025107009.
28. Chen-Wiegart, Y.-c.K., DeMike, R., Erdonmez, C., Thornton, K., Barnett, S.A., and Wang, J., Tortuosity characterization of 3D microstructure at nano-scale for energy storage and conversion materials. Journal of Power Sources, 2014. 249: p. 349-356.
29. Yakal-Kremski, K., Cronin, J.S., Chen-Wiegart, Y.C.K., Wang, J., and Barnett, S.A., Studies of Solid Oxide Fuel Cell Electrode Evolution Using 3D Tomography. Fuel Cells, 2013. 13(4): p. 449-454.
30. Wiedemann, A.H., Goldin, G.M., Barnett, S.A., Zhu, H., and Kee, R.J., Effects of three-dimensional cathode microstructure on the performance of lithium-ion battery cathodes. Electrochimica Acta, 2013. 88: p. 580 – 588.
31. Miller, E.C., Gao, Z., and Barnett, S.A., Fabrication of Solid Oxide Fuel Cells with a Thin (La0.9Sr0.1)0.98(Ga0.8Mg0.2)O3-δElectrolyte on a Sr0.8La0.2TiO3Support. Fuel Cells, 2013. 13(6): p. 1060-1067.
32. Liu, Z., Cronin, J.S., Chen-Wiegart, Y.C.K., Wilson, J.R., Yakal-Kremski, K.J., Wang, J., Faber, K.T., and Barnett, S.A., Three-dimensional morphological measurements of LiCoO2 and LiCoO2/Li (Ni1/3Mn1/3Co1/3)O-2 lithium-ion battery cathodes. Journal of Power Sources, 2013. 227: p. 267-274.
33. Kennouche, D., Chen-Wiegart, Y.c.K., Cronin, J.S., Wang, J., and Barnett, S.A., Three-Dimensional Microstructural Evolution of Ni- Yttria-Stabilized Zirconia Solid Oxide Fuel Cell Anodes At Elevated Temperatures. Journal of the Electrochemical Society, 2013. 160(11): p. F1293-F1304.
34. Hughes, G.A., Yakal-Kremski, K., and Barnett, S.A., Life testing of LSM-YSZ composite electrodes under reversing-current operation. Phys Chem Chem Phys, 2013. 15(40): p. 17257-17262.
35. Gao, Z. and Barnett, S.A., Reduced-Temperature Firing of Anode-Supported Solid Oxide Fuel Cells. Electrochemical Synthesis of Fuels 2, 2013. 58(2): p. 231-242.
36. Cronin, J.S., Jin, D., Wilson, J.R., and Barnett, S.A., Comparison of Stochastically Simulated and Experimentally Measured Three-Dimensional Microstructures of Solid Oxide Fuel Cell Composite Cathodes. Acta Materialia, 2013. Submitted.
37. Cronin, J.S., Chen-Wiegart, Y.C.K., Wang, J., and Barnett, S.A., Three-dimensional reconstruction and analysis of an entire solid oxide fuel cell by full-field transmission X-ray microscopy. Journal of Power Sources, 2013. 233: p. 174-179.
38. Cho, S., Fowler, D.E., Miller, E.C., Cronin, J.S., Poeppelmeier, K.R., and Barnett, S.A., Fe-substituted SrTiO3−δ–Ce0.9Gd0.1O2 composite anodes for solid oxide fuel cells. Energy & Environmental Science, 2013.
39. Chen-Wiegart, Y.-c.K., Liu, Z., Faber, K.T., Barnett, S.A., and Wang, J., 3D analysis of a LiCoO2–Li(Ni1/3Mn1/3Co1/3)O2 Li-ion battery positive electrode using x-ray nano-tomography. Electrochemistry Communications, 2013. 28: p. 127-130.
40. Bierschenk, D.M., Liao, Y., Marks, L.D., and Barnett, S.A., Adaptive Behavior of Pd-substituted (La,Sr)CrO3-δ-Ce0.9Gd0.1O2-δ
Solid Oxide Fuel Cell Anodes. In Preparation, 2013.
41. Zhan, Z., Han, D., Wu, T., Ye, X., Wang, S., Wen, T., Cho, S., and Barnett, S.A., A solid oxide cell yielding high power density below 600 °C. RSC Advances, 2012. 2(10): p. 4075.
42. Stevens, B., Hughes, G., and Barnett, S.A., Biaxially Oriented ZnO Thin Films On Amorphous Substrates Via Dual Magnetron Oblique Sputtering. J Vac. Sci Technol B, 2012. submitted.
43. Shanti, N.O., Bierschenk, D.M., Barnett, S.A., and Faber, K.T., Direct lamination of solid oxide fuel cell anode support, anode, and electrolyte by sequential tape casting of thermoreversible gel slips. Journal of Power Sources, 2012. 212: p. 43-46.
44. Nicholas, J.D., Wang, L., Call, A.V., and Barnett, S.A., Use of the Simple Infiltrated Microstructure Polarization Loss Estimation (SIMPLE) model to describe the performance of nano-composite solid oxide fuel cell cathodes. Phys Chem Chem Phys, 2012.
45. Hughes, G.A., Yakal-Kremski, K., Call, A.V., and Barnett, S.A., Durability Testing of Solid Oxide Cell Electrodes with Current Switching. Journal of The Electrochemical Society, 2012. 159(12): p. F858-F863.
46. Haag, J.M., Bierschenk, D.M., Barnett, S.A., and Poeppelmeier, K.R., Structural, chemical, and electrochemical characteristics of LaSr2Fe2CrO9-δ-based solid oxide fuel cell anodes. Solid State Ionics, 2012. 212: p. 1-5.
47. Cronin, J.S., Muangnapoh, K., Patterson, Z., Yakal-Kremski, K.J., Dravid, V.P., and Barnett, S.A., Effect of Firing Temperature on LSM-YSZ Composite Cathodes: A Combined Three-Dimensional Microstructure and Impedance Spectroscopy Study. Journal of The Electrochemical Society, 2012. 159(4): p. B385.
48. Chen-Wiegart, Y.C.K., Cronin, J.S., Yuan, Q.X., Yakal-Kremski, K.J., Barnett, S.A., and Wang, J., 3D Non-destructive morphological analysis of a solid oxide fuel cell anode using full-field X-ray nano-tomography. Journal of Power Sources, 2012. 218: p. 348-351.
49. Bierschenk, D.M. and Barnett, S.A., Electrochemical characteristics of La0.8Sr0.2Cr0.82Ru0.18O3−δ–Gd0.1Ce0.9O2 solid oxide fuel cell anodes in H2–H2O–CO–CO2 fuel mixtures. Journal of Power Sources, 2012. 201: p. 95-102.
50. Barnett, S.A. Solid Oxide Fuel Cells: Direct Hydrocarbon Type. in Encyclopedia of Electrochemistry / High-Temperature Electrochemistry. 2012. Springer.
51. Zhan, Z., Bierschenk, D.M., Cronin, J.S., and Barnett, S.A., A reduced temperature solid oxide fuel cell with nanostructured anodes. Energy & Environmental Science, 2011.
52. Wilson, J.R., Cronin, J.S., Barnett, S.A., and Harris, S.J., Measurement of three-dimensional microstructure in a LiCoO2 positive electrode. Journal of Power Sources, 2011. 196(7): p. 3443-3447.
53. Wilson, J.R., Cronin, J.S., and Barnett, S.A., Linking the microstructure, performance and durability of Ni-yttria-stabilized zirconia solid oxide fuel cell anodes using three-dimensional focused ion beam–scanning electron microscopy imaging. Scripta Materialia, 2011. 65: p. 67-72.
54. Stevens, B.L., Hoel, C.A., Swanborg, C., Tang, Y., Zhou, C.L., Grayson, M., Poeppelmeier, K.R., and Barnett, S.A., DC reactive magnetron sputtering, annealing, and characterization of CuAlO2 thin films. Journal of Vacuum Science & Technology A, 2011. 29(1): p. -.
55. Shah, M., Voorhees, P.W., and Barnett, S.A., Time-dependent performance changes in LSCF-infiltrated SOFC cathodes: The role of nano-particle coarsening. Solid State Ionics, 2011. 187: p. 64-67.
56. Shah, M., Hughes, G.A., Voorhees, P.W., and Barnett, S.A., Stability and Performance of LSCF-infiltrated SOFC Cathodes: Effect of Nano-Particle Coarsening, in SOFC-XII, ECS Transactions, S.C. Singhal and K. Eguchi, Editors. 2011: Montreal. p. 2045-2053.
57. Marinha, D., Dessemond, L., Cronin, J.S., Wilson, J.R., Barnett, S.A., and Djurado, E., Microstructural 3D Reconstruction and Performance Evaluation of LSCF Cathodes Obtained by Electrostatic Spray Deposition. Chemistry of Materials, 2011. 23(24): p. 5340-5348.
58. Liao, Y., Bierschenk, D.M., Barnett, S.A., and Marks, L.D., Operational Inhomogeneities in La0.9Sr0.1Ga0.8Mg0.2O3-δ Electrolytes and La0.8Sr0.2Cr0.82Ru0.18O3-δ-Ce0.9Gd0.1O2-δ Composite Anodes for Solid Oxide Fuel Cells. Fuel Cells, 2011. 11(5): p. 635-641.
59. Kyle Yakal-Kremski, G.A.H., Ann V. Call, and Scott A. Barnett, Effect Of Current Switching On LSM-YSZ Composite Electrode Durability, in 220th ECS Meeting. 2011: Boston, MA.
60. Kreller, C.R., Drake, M.E., Adler, S.B., Chen, H.-Y., Yu, H.-C., Thornton, K., Wilson, J.R., and Barnett, S.A., Modeling SOFC Cathodes Based on 3-D Representations of Electrode Microstructure, in SOFC-XII, ECS Transactions, S.C. Singhal and K. Eguchi, Editors. 2011, Electrochemical Society: Montreal. p. 815-822.
61. Cronin, J.S., Wilson, J.R., and Barnett, S.A., Impact of pore microstructure evolution on polarization resistance of Ni-Yttria-stabilized zirconia fuel cell anodes. Journal of Power Sources, 2011. 196(5): p. 2640-2643.
62. Cronin, J.S., Muangnapoh, K., Patterson, Z., Yakal-Kremski, K., and Barnett, S.A., Firing Temperature Effect on 3D Microstructure and Performance of LSM-YSZ Composite SOFC Cathodes. Solid Oxide Fuel Cells 12 (SOFC Xii), 2011. 35(1): p. 2369-2378.
63. Cronin, J.S., Muangnapoh, K., Patterson, Z., Yakal-Kremski, K., and Barnett, S.A., Firing Temperature Effect on 3D Microstructure and Performance of LSM-YSZ Composite SOFC Cathodes, in SOFC-XII, ECS Transactions, S.C. Singhal and K. Eguchi, Editors. 2011: Montreal. p. 2369-2378.
64. Chen, H.-Y., Yu, H.-C., Scott Cronin, J., Wilson, J.R., Barnett, S.A., and Thornton, K., Simulation of coarsening in three-phase solid oxide fuel cell anodes. Journal of Power Sources, 2011. 196(3): p. 1333-1337.
65. Bierschenk, D.M., Wilson, J.R., Miller, E., Dutton, E., and Barnett, S.A., A Proposed Method for High Efficiency Electrical Energy Storage Using Solid Oxide Cells, in SOFC-XII, ECS Transactions, S.C. Singhal and K. Eguchi, Editors. 2011: Montreal. p. 2969-2978.
66. Bierschenk, D.M., Wilson, J.R., and Barnett, S.A., High efficiency electrical energy storage using a methane–oxygen solid oxide cell. Energy & Environmental Science, 2011. 4(3): p. 944.
67. Bierschenk, D.M., Potter-Nelson, E., Hoel, C., Liao, Y., Marks, L., Poeppelmeier, K.R., and Barnett, S.A., Pd-substituted (La,Sr)CrO3−δ–Ce0.9Gd0.1O2−δ solid oxide fuel cell anodes exhibiting regenerative behavior. Journal of Power Sources, 2011. 196(6): p. 3089-3094.
68. Wilson, J.R., Cronin, J.S., Duong, A.T., Rukes, S., Chen, H.-Y., Thornton, K., Mumm, D.R., and Barnett, S., Effect of composition of (La0.8Sr0.2MnO3-Y2O3-stabilized ZrO2) cathodes: Correlating three-dimensional microstructure and polarization resistance. Journal of Power Sources, 2010. 195(7): p. 1829-1840.
69. Pillai, M., Lin, Y., Zhu, H., Kee, R.J., and Barnett, S.A., Stability and coking of direct-methane solid oxide fuel cells: Effect of CO2 and air additions. Journal of Power Sources, 2010. 195(1): p. 271-279.
70. Nicholas, J.D. and Barnett, S.A., Measurements and Modeling of Sm[sub 0.5]Sr[sub 0.5]CoO[sub 3 – x]–Ce[sub 0.9]Gd[sub 0.1]O[sub 1.95] SOFC Cathodes Produced Using Infiltrate Solution Additives. Journal of the Electrochemical Society, 2010. 157(4): p. B536-B541.
71. Liu, X.B., Gong, M.Y., Bierschenk, D., Haag, J., Poeppelmeier, K.R., Barnett, S.A., Xu, C.C., and Zondlo, J.W., Degradation of LaSr(2)Fe(2)CrO(9-delta) solid oxide fuel cell anodes in phosphine-containing fuels. Journal of Power Sources, 2010. 195(13): p. 4013-4021.
72. Kobsiriphat, W., Madsen, B.D., Wang, Y., Shah, M., Marks, L.D., and Barnett, S.A., Nickel- and Ruthenium-Doped Lanthanum Chromite Anodes: Effects of Nanoscale Metal Precipitation on Solid Oxide Fuel Cell Performance. Journal of the Electrochemical Society, 2010. 157(2): p. B279-B284.
73. Haag, J.M., Barnett, S.A., Richardson, J.W., and Poeppelmeier, K.R., Structural and Chemical Evolution of the SOFC Anode La0.30Sr0.70Fe0.70Cr0.30O3-delta upon Reduction and Oxidation: An in Situ Neutron Diffraction Study. Chemistry of Materials, 2010. 22(10): p. 3283-3289.
74. Biershcenk, D., Pillai, M., Lin, Y., and Barnett, S., Effect of Ethane and Propane in Simulated Natural Gas on the Operation of Ni-YSZ Anode Supported Solid Oxide Fuel Cells. Fuel Cells, 2010. 10(6): p. 1129-1134.
75. Zhan, Z., Kobsiriphat, W., Wilson, J.R., Pillai, M., Kim, I., and Barnett, S.A., Syngas Production By Coelectrolysis of CO2/H2O: The Basis for a Renewable Energy Cycle. Energy & Fuels, 2009. 23: p. 3089-3096.
76. Wilson, J.R., Gameiro, M., Mischaikow, K., Kalies, W., Voorhees, P.W., and Barnett, S.A., Three-Dimensional Analysis of Solid Oxide Fuel Cell Ni-YSZ Anode Interconnectivity. Microscopy and Microanalysis, 2009. 15(1): p. 71-77.
77. Wilson, J.R., Duong, A.T., Gameiro, M., Chen, H.Y., Thornton, K., Mumm, D.R., and Barnett, S.A., Quantitative three-dimensional microstructure of a solid oxide fuel cell cathode. Electrochemistry Communications, 2009. 11(5): p. 1052-1056.
78. Wilson, J.R., Cronin, J.S., Rukes, S., Duong, A., Mumm, D., and Barnett, S.A., Analysis of LSM-YSZ Composite Cathode Phase Connectivity Using Three-Dimensional Reconstructions, in Solid Oxide Fuel Cells 11 (SOFC-XI), M.D. S.C. Singhal, Editor. 2009, Electrochemical Society: Vienna, Austria. p. 2283-2292.
79. Shah, M., Nicholas, J.D., and Barnett, S.A., Prediction of Infiltrated Solid Oxide Fuel Cell Cathode Polarization Resistance Electrochemistry Communications, 2009. 11(1): p. 2-5.
80. Nicholas, J.D. and Barnett, S.A., Finite-Element Modeling of Idealized Infiltrated Composite Solid Oxide Fuel Cell Cathodes. Journal of the Electrochemical Society, 2009. 156(4): p. B458-B464.
81. Nicholas, J.D. and Barnett, S.A., Effect of Infiltrate Solution Additives on Samarium Strontium Cobaltite-Cerium Gadolinium Oxide Nano-Composite SOFC Cathodes, in Electrochemical Society Transactions, M.D. S.C. Singhal, Editor. 2009, Electrochemical Society: Vienna, Austria p. 2435-2442.
82. Kobsiriphat, W., Madsen, B.D., Wang, Y., Marks, L.D., and Barnett, S.A., La0.8Sr0.2Cr1-xRuxO3-delta-Gd0.1Ce0.9O1.95 solid oxide fuel cell anodes: Ru precipitation and electrochemical performance. Solid State Ionics, 2009. 180(2-3): p. 257-264.
83. Kim, I., Pillai, M., Shastry, T., Brown, S., and Barnett, S.A., Co-generation of Electricity and Syngas under Electrochemical Partial Oxidation using Novel SOFCs, in Electrochemical Society Transactions, M.D. S.C. Singhal, Editor. 2009, Electrochemical Society: Vienna, Austria. p. 271-280.
84. Goldin, G.M., Zhu, H., Kee, R.J., Bierschenk, D., and Barnett, S.A., Multidimensional Flow, Thermal, and Chemical Behavior in SOFC Button Cells. J. Power Sources, 2009. 187: p. 123-135.
85. Bierschenk, D.M., Haag, J.M., Poeppelmeier, K.R., and Barnett, S.A., Effect of Coal Syngas Fuel Composition on the Performance and Stability of Oxide Anodes, in Solid Oxide Fuel Cells 11 (SOFC-XI), M.D. S.C. Singhal, Editor. 2009, Electrochemical Society: Vienna, Austria. p. 2107-2116.
86. Zhu, H.Y., Kee, R.J., Pillai, M.R., and Barnett, S.A., Modeling electrochemical partial oxidation of methane for cogeneration of electricity and syngas in solid-oxide fuel cells. Journal of Power Sources, 2008. 183(1): p. 143-150.
87. Wilson, J.R. and Barnett, S.A., Solid Oxide Fuel Cell Ni–YSZ Anodes: Effect of Composition on Microstructure and Performance. Electrochemical and Solid-State Letters, 2008. 11(10): p. B181-B185.
88. Stevens, B.L., Cohen, D.J., and Barnett, S.A., Structure and interdiffusion of epitaxial ZnO∕ZnMgO nanolayered thin films. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, 2008. 26(6): p. 1538.
89. Shah, M. and Barnett, S.A., Solid oxide fuel cell cathodes by infiltration of La0.6Sr0.4Co0.2Fe0.8O3†-†[delta] into Gd-Doped Ceria. Solid State Ionics, 2008. 179(35-36): p. 2059-2064.
90. Pillai, M.R., Kim, I., Bierschenk, D.M., and Barnett, S.A., Fuel-flexible operation of a solid oxide fuel cell with Sr0.8La0.2TiO3 support. Journal of Power Sources, 2008. 185(2): p. 1086-1093.
91. Pillai, M.R., Jiang, Y., Mansourian, N., Kim, I., Bierschenk, D.M., Zhu, H., Kee, R.J., and Barnett, S.A., Solid Oxide Fuel Cell with Oxide Anode-Side Support. Electrochemical and Solid-State Letters, 2008. 11(10): p. B174-B177.
92. Pillai, M.R., Bierschenk, D.M., and Barnett, S.A., Electrochemical Partial Oxidation of Methane in Solid Oxide Fuel Cells:
Effect of Anode Reforming Activity. Catalysis Letters, 2008. 121(1-2): p. 19-23.
93. Lin, Y.B., Pillai, M.R., Bierschenk, D.M., Stevens, B.L., and Barnett, S.A., Methane partial oxidation using a (La0.6Sr0.4)(Ga0.8Mg0.05Co0.15)O3-delta membrane. Catalysis Letters, 2008. 124(1-2): p. 1-6.
94. Lin, Y. and Barnett, S.A., La0.9Sr0.1Ga0.8Mg0.2O3-La0.6Sr0.4Co0.2Fe0.8O3 composite cathodes for intermediate-temperature solid oxide fuel cells. Solid State Ionics, 2008. 179(11-12): p. 420-427.
95. Kobsiriphat, W. and Barnett, S., Ag–Cu–Ti Braze Materials for Sealing SOFCs. Journal of Fuel Cell Science and Technology, 2008. 5(1): p. 011002-7.
96. Haag, J.M., Madsen, B.D., Barnett, S.A., and Poeppelmeier, K.R., Application of LaSr2Fe2CrO9-delta in solid oxide fuel cell anodes. Electrochemical and Solid State Letters, 2008. 11(4): p. B51-B53.
97. Wilson, J.R., Kobsiriphat, W., Mendoza, R., Chen, H.Y., Hines, T., Hiller, J.M., Miller, D.J., Thornton, K., Voorhees, P.W., Adler, S.B., Mumm, D., and Barnett, S.A., Three Dimensional Reconstruction of Solid Oxide Fuel Cell Electrodes Using Focused Ion Beam – Scanning Electron Microscopy. Solid Oxide Fuel Cells 10 (SOFC-X), Pts 1 and 2, 2007. 7(1): p. 1879-1887
2646.
98. Pillai, M.R., Gostovic, D., Kim, I., and Barnett, S.A., Short-period segmented-in-series solid oxide fuel cells on flattened tube supports. Journal of Power Sources, 2007. 163(2): p. 960-965.
99. Madsen, B.D., Kobsiriphat, W., Wang, Y., Marks, L.D., and Barnett, S.A., Nucleation of nanometer-scale electrocatalyst particles in solid oxide fuel cell anodes. Journal of Power Sources, 2007. 166(1): p. 64-67.
100. Madsen, B.D., Kobsiriphat, W., Wang, Y., Marks, L.D., and Barnett, S.A., SOFC Anode Performance Enhancement Through Precipitation of Nanoscale Catalysts. Solid Oxide Fuel Cells 10 (SOFC-X), Pts 1 and 2, 2007. 7(1): p. 1339-1348
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101. Madsen, B.D. and Barnett, S.A., La[sub 0.8]Sr[sub 0.2]Cr[sub 0.98]V[sub 0.02]O[sub 3 – delta]Ce[sub 0.9]Gd[sub 0.1]O[sub 1.95]–Ni Anodes for Solid Oxide Fuel Cells. Journal of The Electrochemical Society, 2007. 154(6): p. B501-B507.
102. Madsen, B.D., Kobsiriphat, M., Marks, L.D., Wang, Y., Barnett, S.A., SOFC Anode Performance Enhancement through Precipitation of Nanoscale Catalysts, in SOFC X, S. K. Eguchi, S.C., Yokokawa, H., Mizusaki, J., Editor. 2007, Electrochemical Society: Nara, Japan, p 1339-1348.
103. Lai, T.S. and Barnett, S.A., Effect of cathode sheet resistance on segmented-in-series SOFC power density. Journal of Power Sources, 2007. 164(2): p. 742-745.
104. Kim, I., Pillai, M.R., and Barnett, S.A., Liquid-Hydrocarbon Internal Reforming In Catalyst-Assisted SOFCs in Solid Oxide Fuel Cells 10 (SOFC-X), K. Eguchi, Singhal, S.C., Yokokawa, H., Mizusaki, J., Editor. 2007, The Electrochemical Society: Nara, Japan. p. 815-822.
105. Zhu, H., Colclasure, A.M., Kee, R.J., Lin, Y., and Barnett, S.A., Anode barrier layers for tubular solid-oxide fuel cells with methane fuel streams. Journal of Power Sources, 2006. 161(1): p. 413-419.
106. Zhu, H., Colclasure, A.M., Kee, R.J., Lin, Y., Barnett. S.A., Tubular solid-oxide fuel cells using either anode recycle or barrier layers, in Seventh European SOFC Forum, U. Bossel, Editor. 2006, Publisher: Lucerne, Switzerland.
107. Zhan, Z.L., Lin, Y.B., Pillai, M., Kim, I., and Barnett, S.A., High-rate electrochemical partial oxidation of methane in solid oxide fuel cells. Journal of Power Sources, 2006. 161(1): p. 460-465.
108. Zhan, Z.L. and Barnett, S.A., Operation of ceria-electrolyte solid oxide fuel cells on iso-octane-air fuel mixtures. Journal of Power Sources, 2006. 157(1): p. 422-429.
109. Zhan, Z.L. and Barnett, S.A., Solid oxide fuel cells operated by internal partial oxidation reforming of iso-octane. Journal of Power Sources, 2006. 155(2): p. 353-357.
110. Wilson, J.R., Kobsiriphat, W., Mendoza, R., Chen, H.-Y., Hiller, J.M., Miller, D.J., Thornton, K., Voorhees, P.W., Adler, S.B., and Barnett, S.A., Three-dimensional reconstruction of a solid-oxide fuel-cell anode. Nat. Mater., 2006. 5(7): p. 541-544.
111. Murray, E.P., Harris, S.J., Liu, J., and Barnett, S.A., Direct Solid Oxide Fuel Cell Operation Using Isooctane. Electrochemical and Solid-State Letters, 2006. 9(6): p. A292-A294.
112. Lin, Y.B. and Barnett, S.A., Co-firing of anode-supported SOFCs with thin La0.9Sr0.1Ga0.8Mg0.2O3-delta electrolytes. Electrochemical and Solid State Letters, 2006. 9(6): p. A285-A288.
113. Lin, Y., Zhan, Z., and Barnett, S.A., Improving the stability of direct-methane solid oxide fuel cells using anode barrier layers. Journal of Power Sources, 2006. 158(2): p. 1313-1316.
114. Fontaine, M.L., Laberty-Robert, C., Barnett, S.A., Ansart, F., and Tailhades, P., Electrochemical performance of La2NiO4 cathode materials for IT-SOFCs: microstructure effects of thin electrodes (< 1 micron). Solid State Ionics, 2006. in press: p. in press.
115. Zhan, Z. and Barnett, S.A., An Iso-Octane Fueled Solid Oxide Fuel Cell. Science, 2005. 308: p. 844 – 846.
116. Zhan, Z. and Barnett, S.A., Use of a Catalyst Layer for Propane Partial Oxidation in Solid Oxide Fuel Cells. Solid State Ionics, 2005. 176: p. 871.
117. Zhan, Z., Lin, Y., Barnett, S.A. Anode catalyst layers for direct hydrocarbon and internal reforming SOFCs. in SOFC IX. 2005. Quebec: Electrochemical Soc., Pennington, NJ.
118. Von Dollen, P. and Barnett, S., A study of screen printed yttria-stabilized zirconia layers for solid oxide fuel cells. Journal of the American Ceramic Society, 2005. 88(12): p. 3361-3368.
119. Shao, Z., Haile, S., M., Ahn, J., Ronney, P.D., Zhan, Z., and Barnett, S.A., A thermally self-sustained micro solid-oxide fuel-cell stack with high power density. Nature, 2005. 435: p. 795-798.
120. Murray, E.P., Harris, S.J., Liu, J., and Barnett, S.A., Direct Solid Oxide Fuel Cell Operation Using a Dimethyl Ether/Air Fuel Mixture. Electrochemical and Solid-State Letters, 2005. 8(10): p. A531-A533.
121. Madsen, B.D., Barnett, S.A. and et al. The influence of NiO content on ceramic-based solid oxide fuel cell anodes. in SOFC IX. 2005. Quebec: Electrochemical Soc.,Pennington, NJ.
122. Madsen, B.D. and Barnett, S.A., Effect of fuel composition on the performance of ceramic-based solid oxide fuel cell anodes. Solid State Ionics, 2005. 176: p. 2545-2553.
123. Lin, Y., Zhan, Z., Liu, J., and Barnett, S.A., Direct Operation of Solid Oxide Fuel Cells with Methane Fuel. Solid State Ionics, 2005. 176: p. 1827-1835.
124. Lai, T.S. and Barnett, S.A., Design Considerations For Segmented-In-Series Fuel Cells. J. Power Sources, 2005. 147: p. 85-94.
125. Lai, T.S., Barnett, S. A. Design and Fabrication of Segmented-in-Series SOFCs. in SOFC IX. 2005. Quebec: Electrochemical Soc., Pennington, NJ.
126. Cohen, D.J. and Barnett, S.A., Predicted electrical properties of modulation-doped ZnO-based transparent conducting oxides. Journal of Applied Physics, 2005. 98(5).
127. Zhan, Z., Jiang, L., and Scott, A.B., Operation of Anode Supported Solid Oxide Fuel Cells On Propane-Air Fuel Mixtures. Appl. Catal. A General, 2004. 262: p. 255-259.
128. Ruthe, K.C., Cohen, D.J., and Barnett, S.A., Low temperature epitaxy of reactively sputtered ZnO on sapphire. Journal of Vacuum Science & Technology A, 2004. 22(6): p. 2446-2452.
129. Lai, T.S., Liu, J., and Barnett, S.A., Effect of cell width on segmented-in-series solid oxide fuel cells. Electrochem. Solid State Lett., 2004. 7: p. A78-A81.
130. Barnett, S.A. and Madan, A., Hardness and stability of metal–nitride nanoscale multilayers. Scripta Materialia, 2004. 50(6): p. 739-744.
131. Atkinson, A., Barnett, S.A., Gorte, R.J., Irvine, J.T.S., McEvoy, A.J., Mogensen, M.B., Singhal, S., and Vohs, J., Advanced Anodes for High Temperature Fuel Cells. Nature Materials, 2004. 3: p. 17-27.
132. Ruthe, K.C. and Barnett, S.A., Glancing-angle ion-assisted deposition of ZnO thin films. Surface Science, 2003. 538(1-2): p. L460-L464.
133. Liu, J. and Barnett, S.A., Operation of anode supported solid oxide fuel cells on methane and natural gas. Solid State Ionics, 2003. 158: p. 11.
134. Ennis, B.M., Madan, A., Slaughter, W.S., Barnett, S.A., and Mao, S.X., Super hardening and deformability in epitaxially grown W/NbN nanolayers under shallow and deep nanoindentations. Journal of Applied Physics, 2003. 94(10): p. 6892-6898.
135. Barnett, S.A., Madan, A., Kim, I., and Martin, K., Stability of nanometer-thick layers in hard coatings. Mrs Bulletin, 2003. 28(3): p. 169-172.
136. Barnett, S.A., Direct Hydrocarbon Solid Oxide Fuel Cells, in Handbook of Fuel Cells, W. Vielstich, A. Lamm, and H. Gasteiger, Editors. 2003, Wiley: Hoboken, NJ. p. 1098-1108.
137. Murray, E.P., Sever, M.J., and Barnett, S.A., Electrochemical performance of (La,Sr)(Co,Fe)O-3-(Ce,Gd)O-3 composite cathodes. Solid State Ionics, 2002. 148: p. 27-34.
138. Liu, J., Madsen, B.D., Ji, Z.Q., and Barnett, S.A., A fuel-flexible ceramic-based anode for solid oxide fuel cells. Electrochem. Solid-State Lett., 2002. 5(6): p. A122-A124.
139. Liu, J. and Barnett, S.A., Thin YSZ Electrolyte Solid Oxide Fuel Cells By Centrifugal Casting. J. Am. Ceram. Soc., 2002. 85: p. 3096-3098.
140. Murray, E.P. and Barnett, S.A., (La,Sr)MnO3-(Ce,Gd)O2-x composite cathodes for solid oxide fuel cells. Solid State Ionics, 2001. 143: p. 265-273.
141. Yashar, P.C., Barnett, S.A., Hultman, L., and Sproul, W.D., Deposition and mechanical properties of polycrystalline Y2O3/ZrO2 superlattices. Journal of Materials Research, 1999. 14(9): p. 3614-3622.
142. Perry Murray, E., Tsai, T., Barnett, S. A., A Direct-Methane Solid Oxide Fuel Cell with Ceria-Based Anode. Nature, 1999. 400: p. 649-651.
143. Murray, E.P. and Barnett, S.A., Improved performance in (La,Sr)MnO3 and (La,Sr)(Co,Fe)O3 cathodes by the addition of a Gd-doped ceria second phase. Proc. – Electrochem. Soc., 1999. 99-19: p. 369-378.
144. Kaufman, D.Y., DeLuca, P.M., Tsai, T., and Barnett, S.A., High-rate deposition of biaxially textured yttria-stabilized zirconia by dual magnetron oblique sputtering. J. Vac. Sci. Technol. A, 1999. 17(5): p. 2826-2829.
145. Clemens, B.M., Kung, H., and Barnett, S.A., Structure and strength of multilayers. Mrs Bulletin, 1999. 24(02): p. 20-26.
146. Chu, X., Wong, M.S., Sproul, W.D., and Barnett, S.A., Deposition, structure, and hardness of polycrystalline transition-metal nitride superlattice films. Journal of Materials Research, 1999. 14(6): p. 2500-2507.
147. Chu, X., Wong, M.S., Sproul, W.D., and Barnett, S.A., Deposition, structure, and hardness of polycrystalline transition-metal nitride superlattice films. Journal of Materials Research, 1999. 14(6): p. 2500-2507.
148. Yashar, P., Barnett, S.A., Rechner, J., and Sproul, W.D., Structure and mechanical properties of polycrystalline CrN/TiN superlattices. Journal of Vacuum Science & Technology A, 1998. 16(5): p. 2913-2918.
149. Yashar, P., Barnett, S.A., Rechner, J., and Sproul, W.D., Structure and mechanical properties of polycrystalline CrN/TiN superlattices. Journal of Vacuum Science & Technology A, 1998. 16(5): p. 2913-2918.
150. Tsai, T., Barnett, S.A., Effect of Mixed-Conducting Interfacial Layers on Solid Oxide Fuel Cell Anode Performance. J. Electrochem. Soc., 1998. 145(5): p. 1696.
151. Perry Murray, E., Tsai, T., Barnett, S.A., Oxygen Transfer Processes in (La,Sr)MnO3/Y2O3-Stabilized ZrO2 Cathodes: An Impedance Spectroscopy Study. Solid State Ionics, 1998. 110: p. 235-243.
152. Labanda, J.G.C., Barnett, S.A., and Hultman, L., Damage-free cleaning of Si(001) using glancing-angle ion bombardment. Journal of Vacuum Science & Technology B, 1998. 16(4): p. 1885-1890.
153. Barnett, S.A., Madan, A., and Kim, I.W., Structure and mechanical properties of nitride-based superlattices with immiscible layers. Hard Coatings, 1998: p. 189-201.
154. Tsai, T., S. A. Barnett, S.A., Increased Solid-Oxide Fuel Cell Power Density Using Interfacial Ceria Layers. Solid State Ionics, 1997. 98: p. 191.
155. Tsai, T., Perry Murray, E., Barnett, S.A., Low-Temperature Solid-Oxide Fuel Cells Utilizing Thin Bi-Layer Electrolytes. J. Electrochem. Soc., 1997. 144: p. L130.
156. Tsai, T., Barnett, S.A., Effect of LSM-YSZ cathode on thin-electrolyte solid oxide cell performance. Solid State Ionics, 1997. 93: p. 207.
157. Madan, A., Yashar, P., Shinn, M., and Barnett, S.A., An X-ray diffraction study of epitaxial TiN/NbN superlattices. Thin Solid Films, 1997. 302(1-2): p. 147-154.
158. Labanda, J.G.C. and Barnett, S.A., Glancing-angle ion bombardment for modification and monitoring of semiconductor surfaces. Journal of Electronic Materials, 1997. 26(9): p. 1030-1038.
159. Labanda, J.G.C. and Barnett, S.A., Ion-scattering spectroscopy during InGaAs molecular beam epitaxy: Reduction of sputtering using glancing-angle Ar ions. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films, 1997. 15(3): p. 825-829.
160. Labanda, J.G.C. and Barnett, S.A., In situ monitoring of molecular beam epitaxy using specularly scattered ion beam current oscillations. Applied Physics Letters, 1997. 70(21): p. 2843-2845.
161. Chu, X., Barnett, S.A., Wong, M.S., and Sproul, W.D., Reactive magnetron sputter deposition of polycrystalline vanadium nitride films. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films, 1996. 14(6): p. 3124-3129.
162. Chu, X., Barnett, S.A., Wong, M.S., and Sproul, W.D., Reactive magnetron sputter deposition of polycrystalline vanadium nitride films. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films, 1996. 14(6): p. 3124-3129.
163. Wang, L.S., Barnett, S.A., Ag-Perovskite Cermets for Thin Film Solid Oxide Fuel Cell Air-Electrode Applications. Solid State Ionics, 1995. 76: p. 103.
164. Tsai, T., Barnett, S.A., Bias Sputter Deposition of Dense Yttria-Stabilized Zirconia Films on Porous Substrates. J. Electrochem. Soc., 1995. 142: p. 3084.
165. Tsai, T., Barnett, S.A., Sputter Deposition of Cermet Fuel Electrodes for Solid Oxide Fuel Cells. Journal of Vacuum Science and Technology A, 1995. 13: p. 1073.
166. Labanda, J.G.C., Barnett, S.A., and Hultman, L., Sputter Cleaning and Smoothening of Gaas(001) Using Glancing-Angle Ion-Bombardment. Applied Physics Letters, 1995. 66(23): p. 3114-3116.
167. Labanda, J.G.C., Barnett, S.A., and Hultman, L., Effects of glancing-angle ion bombardment on GaAs(001). Journal of Vacuum Science & Technology B, 1995. 13(6): p. 2260-2268.
168. Kim, J.O., Achenbach, J.D., Shinn, M., and Barnett, S.A., Effective elastic constants of superlattice films measured by line-focus acoustic microscopy. Journal of Engineering Materials and Technology-Transactions of the Asme, 1995. 117(4): p. 395-401.
169. Kim, J.O., Achenbach, J.D., Shinn, M., and Barnett, S.A., Effective elastic constants of superlattice films measured by line-focus acoustic microscopy. Journal of Engineering Materials and Technology-Transactions of the Asme, 1995. 117(4): p. 395-401.
170. Chu, X. and Barnett, S.A., A model of superlattice yield stress and hardness enhancements. Structure and Properties of Multilayered Thin Films, 1995. 382: p. 291-296.
171. Chu, X. and Barnett, S.A., Model of Superlattice Yield Stress and Hardness Enhancements. Journal of Applied Physics, 1995. 77(9): p. 4403-4411.
172. Shinn, M. and Barnett, S.A., Effect of Superlattice Layer Elastic-Moduli on Hardness. Applied Physics Letters, 1994. 64(1): p. 61-63.
173. Hultman, L., Shinn, M., Mirkarimi, P.B., and Barnett, S.A., Characterization of Misfit Dislocations in Epitaxial (001)-Oriented Tin, Nbn, Vn, and (Ti,Nb)N Film Heterostructures by Transmission Electron-Microscopy. Journal of Crystal Growth, 1994. 135(1-2): p. 309-317.
174. Barnett, S.A. and Shinn, M., Plastic and Elastic Properties of Compositionally Modulated Thin-Films. Annual Review of Materials Science, 1994. 24: p. 481-511.
175. Barnett, S.A. and Shinn, M., Plastic and Elastic Properties of Compositionally Modulated Thin-Films. Annual Review of Materials Science, 1994. 24: p. 481-511.
176. Wang, L.S., Barnett, S.A., Sputter-Deposited Medium-Temperature Solid-Oxide Fuel Cells With Multi-Layer Electrolytes. Solid State Ionics, 1993. 61: p. 273.
177. Shinn, M., Mirkarimi, P.B., and Barnett, S.A., Nucleation of Lattice-Mismatched Transition-Metal Nitride Films – Limitations on Superlattice Growth. Surface Science, 1993. 281(1-2): p. 1-9.
178. Shinn, M., Mirkarimi, P.B., and Barnett, S.A., Nucleation of Lattice-Mismatched Transition-Metal Nitride Films: Limitations on Superlattice Growth. Surface Science, 1993. 281: p. 1-5.
179. Kim, J.O., Achenbach, J.D., Mirkarimi, P.B., and Barnett, S.A., Acoustic-Microscopy Measurements of the Elastic Properties of Tin/(Vxnb1-X)N Superlattices. Physical Review B, 1993. 48(3): p. 1726-1737.
180. Chu, X., Barnett, S.A., Wong, M.S., and Sproul, W.D., Reactive Unbalanced Magnetron Sputter Deposition of Polycrystalline Tin/Nbn Superlattice Coatings. Surface & Coatings Technology, 1993. 57(1): p. 13-18.
181. Choi, C.-H., Hultman, L., and Barnett, S.A., Elimination of Planar Faults in Lattice-Matched Heteroepitaxial Films Using Ion-Assisted Molecular Beam Epitaxy. J. Vac. Sci. Technol., 1993. 11(1).
182. Wang, L.S., Barnett, S.A., Lowering the Air-Electrode Interfacial Resistance in Medium-Temperature Solid Oxide Fuel Cells. J. Electrochem. Soc., 1992. 139: p. L89.
183. Wang, L.S., Barnett, S.A., Deposition and Properties of Yttria-Stabilized Bismuth Oxide Thin Films Using Reactive Direct Current Magnetron Co-Sputtering. J. Electrochem. Soc., 1992. 139: p. 2567.
184. Wang, L.S., Barnett, S.A., Sputter Deposition of Yttria-Stabilized Zirconia and Silver Cermet Electrodes for SOFC Applications. Solid State Ionics, 1992. 52: p. 261.
185. Wang, L.S., Barnett, S.A., Deposition, Structure, and Properties of Cermet Thin Films Composed of Ag and Y-Stabilized Zirconia. J. Electrochem. Soc., 1992. 139: p. 1134.
186. Shinn, M., Hultman, L., and Barnett, S.A., Growth, Structure, and Microhardness of Epitaxial Tin/Nbn Superlattices. Journal of Materials Research, 1992. 7(4): p. 901-911.
187. Shinn, M., Hong, B.S., and Barnett, S.A., Superconductivity of Dc Reactive Magnetron Sputtered Epitaxial Tin-Nbn Superlattices. Layered Superconductors : Fabrication, Properties and Applications, 1992. 275: p. 85-90.
188. Mirkarimi, P.B., Shinn, M., Barnett, S.A., Kumar, S., and Grimsditch, M., Elastic Properties of Tin/(Vxnb1-X)N Superlattices Measured by Brillouin-Scattering. Journal of Applied Physics, 1992. 71(10): p. 4955-4958.
189. Mirkarimi, P.B., Shinn, M., and Barnett, S.A., An Ultrahigh-Vacuum, Magnetron Sputtering System for the Growth and Analysis of Nitride Superlattices. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films, 1992. 10(1): p. 75-81.
190. Kim, J.O., Achenbach, J.D., Shinn, M., and Barnett, S.A., Effective Elastic-Constants and Acoustic Properties of Single-Crystal Tin/Nbn Superlattices. Journal of Materials Research, 1992. 7(8): p. 2248-2256.
191. Hultman, L., Wallenberg, L.R., Shinn, M., and Barnett, S.A., Formation of Polyhedral Voids at Surface Cusps during Growth of Epitaxial Tin/Nbn Superlattice and Alloy-Films. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films, 1992. 10(4): p. 1618-1624.
192. Chu, X., Wong, M.S., Sproul, W.D., Rohde, S.L., and Barnett, S.A., Deposition and Properties of Polycrystalline Tin/Nbn Superlattice Coatings. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films, 1992. 10(4): p. 1604-1609.
193. Chu, X., Wong, M.S., Sproul, W.D., Rohde, S.L., and Barnett, S.A., Deposition and Properties of Polycrystalline Tin/Nbn Superlattice Coatings. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films, 1992. 10(4): p. 1604-1609.
194. Choi, C.-H., Ai, R., and Barnett, S.A., Ion-Assisted Molecular Beam Epitaxy of GaAs on Si(100). J. Electronic Materials, 1992. 21: p. 1041-1048.
195. Thiele, E.S., Wang, L.S., Mason, T.O., Barnett, S.A., Deposition and Properties of Yttria-Stabilized Zirconia Thin Films Using Reactive D.C. Magnetron Sputtering. Journal of Vacuum Science and Technology A, 1991. 9: p. 3054.
196. Barnett, S.A., A new solid oxide fuel cell design based on thin film electrolytes. Energy, 1990. 15(1): p. 1-9.
197. Helmersson, U., Todorova, S., Barnett, S.A., Sundgren, J.E., Markert, L.C., and Greene, J.E., Growth of single‐crystal TiN/VN strained‐layer superlattices with extremely high mechanical hardness. Journal of Applied Physics, 1987. 62(2): p. 481-484.
198. Mcglinn, T.C., Krabach, T.N., Klein, M.V., Bajor, G., Greene, J.E., Kramer, B., Barnett, S.A., Lastras, A., and Gorbatkin, S., Raman-Scattering and Optical-Absorption Studies of the Metastable Alloy System Gaasxsb1-X. Physical Review B, 1986. 33(12): p. 8396-8401.