60. C. Ren, Y. Gan, C. Yang, M. Lee, and X. Xue, “A rational asymmetrical hollow fiber membrane for oxygen permeation”, International Journal of Applied Ceramic Technology, 2018; 00:1-11.
59. C. Yang, Y. Gan, M. Lee, C. Ren, and X. Xue, “Yb doping Effects on Structure and Performance of BaCo0.7Fe0.3-xYbxO3-δ Perovskite”, Journal of The Electrochemical Society, 165 (13) F1032-F1042 (2018).
58. Y. Gan, C. Ren, M. Lee, C. Yang, and X. Xue, “Fabrication and characterization of microtubular solid oxide cell supported with nanostructured mixed conducting perovskite fuel electrode”, Journal of Solid State Electrochemistry, 2018, 22:2929-2943.
57. C. Ren, Y. Gan, C. Yang, M. Lee, R. D. Green, and X. Xue, “Fabrication and Characterization of Micro-Tubular Solid Oxide Cells for CO2/CO Redox Operations”, Journal of Applied Electrochemistry, 2018, Volume 48, Issue 8, pp 959–971.
56. G. Dong, C. Yang, F. He, Y. Jiang, C. Ren, Y. Gan, M. Lee and X. Xue, “Tin doped PrBaFe2O5+d anode material for solid oxide fuel cells”, RSC Adv., 2017, 7, 22649–22661.
55. C. Ren, Y. Gan, C. Yang, M. Lee, G. Dong, and X. Xue, “Fabrication and Characterization of High Performance Intermediate Temperature Alumina Substrate Supported Micro-Tubular SOFCs”, Journal of The Electrochemical Society, 164 (7) F722-F731 (2017).
54. F. He, Y. Jiang, C. Ren, G. Dong, Y. Gan, M. Lee, R. D. Green, X. Xue, “Generalized Electrical Conductivity Relaxation Approach to Determine Electrochemical Kinetic Properties for MIECs”, Solid State Ionics, 297, (2016) 82-92.
53. C. Ren, Y. Gan, M. Lee, C. Yang, F. He, Y. Jiang, G. Dong, R. D. Green, and X. Xue, “Fabrication and Characterization of High Performance Intermediate Temperature Micro-Tubular Solid Oxide Fuel Cells”, Journal of The Electrochemical Society, 163 (9) F1115-F1123 (2016).
52. F. He, X. Jin, T. Tian, H. Ding, R. D. Green, X. Xue, “Determination of electrochemical kinetic property for mixed ionic electronic conductors from electrical conductivity relaxation measurements”, Journal of The Electrochemical Society, 162 (9) F951-F958 (2015).
51. L. Yang, X. Xue and K. Xie, “Spatially confined catalysis enhanced high temperature carbon dioxide electrolysis”, Phys. Chem. Chem. Phys., 2015, 17, 11705–11714.
50. H. Ding and X. Xue, “An-Interfacial Nanospike-Structured Cathode for Low Temperature Solid Oxide Fuel Cells”, Advanced Materials Interfaces 2014, 1, 1400008.
49. J. Shi and X. Xue, “Modeling Approach to Identify Physically Distinct Processes Convoluted in Electrochemical Impedance Spectra for Proton-Conducting Solid Oxide Fuel Cells”, Journal of Applied Electrochemistry, Vol. 44, Issue 6 (2014), 683-694.
48. X. Jin and X. Xue, “Modeling of Chemical-Mechanical Couplings in Anode-supported Solid Oxide Fuel Cells and Reliability Analysis”, RSC Advances, 2014, 4(30), 15782-15796.
47. H. Ding, and X. Xue, “A platinum nanowire network as a highly efficient current collector for intermediate temperature solid oxide fuel cells”, RSC Advances, 2014, 4(22), 11317-11321.
46. Y. Xie, and X. Xue, “Modeling of Direct H2S Fueled Solid Oxide Fuel Cells with Reforming Chemical Kinetics”, Fuel Cells, Vol. 14, Issue 2, pp.212-220, 2014.
45. X. Jin and X. Xue, “Micro Modeling Study of Cathode/Electrolyte Interfacial Stresses for Solid Oxide Fuel Cells”, Journal of The Electrochemical Society, 160 (8) F815-F823 (2013).
44. Y. Xie and X. Xue, “Multi-Physicochemical Modeling of Direct Methane Fueled Solid Oxide Fuel Cells,” Journal of Power Sources, 241 (2013) 718-727.
43. Y. Xie and X. Xue, “Direct methane fueled SOFC model with detailed reforming reactions”, Chemical Engineering Journal, 228 (2013) 917–924.
42. J. Ge, H. Ding, and X. Xue, “Resorcinol-formaldehyde gel method to synthesize porous Ce0.8Sm0.2O1.9 nanoparticles”, Materials Letters, Vol. 81, 15 August 2012, pp5-8.
41. Y. Xie and X. Xue, “Modeling of solid oxide electrolysis cell for syngas generation with detailed surface chemistry”, Solid State Ionics, Vol.224, 14 September 2012, pp64-73.
40. J. Ge, H. Ding, and X. Xue, “A Nanosheet-Structured Three-Dimensional Macroporous Material with High Ionic Conductivity Synthesized Using Glucose as a Transforming Template”, Angewandte Chemie International Edition, Vol. 51, Issue 25, pp6205-6208, June 18, 2012.
39. H. Ding, J. Ge, and X. Xue, “A Ceramic-Anode Supported Low Temperature Solid Oxide Fuel Cell”, Electrochemical and Solid State Letters, 15 (6) B86-B89 (2012).
38. Y. Xie and X. Xue, “Multi-Scale Electrochemical Reaction Anode Model for Solid Oxide Fuel Cells”, Journal of Power Sources, Vol. 209, 1 July 2012, pp81-89.
37. Shi, J.; Xue, X., “Inverse Estimation of Electrode Microstructure Distributions in NASA Bi-electrode Supported Solid Oxide Fuel Cells”, Chemical Engineering Journal, February 2012, Volume 181-182, pp. 607-613.
36. J. Shi and X. Xue, “Microstructure Optimization Designs for Anode-Supported Planar Solid Oxide Fuel Cells,” ASME Journal of Fuel Cell Science and Technology, December 2011, Volume 8, Issue 6, 061006 (8 pages).
35. J. Shi and X. Xue, “Mechanistic Model based Multi-Impedance Curve-Fitting Approach for Solid Oxide Fuel Cells,” Journal of Electroanalytical Chemistry, 661 (2011), pp. 150-156.
34. J. Shi and X. Xue, “Inverse approach to quantify multi-physicochemical properties of porous electrodes for solid oxide fuel cells,” Electrochimica Acta, Volume 56, Issue 24, 1 October 2011, Pages 8718-8726.
33. L. Yan, H. Ding, Z. Zhu, X. Xue, “Investigation of cobalt-free perovskite Ba0.95La0.05FeO3−δ as a cathode for proton-conducting solid oxide fuel cells”, Journal of Power Sources, Volume 196, Issue 22, 15 November 2011, Pages 9352-9355.
32. Ding, H.; Xie, Y.; Xue, X., “Electrochemical performance of BaZr0.1Ce0.7Y0.1Yb0.1O3-δ electrolyte based proton-conducting SOFC with layered perovskite PrBaCo2O5+δ cathode”, Journal of Power Sources, Volume 196, Issue 5, pp. 2602-2607, (2011).
31. Shi, J.; Xue, X., “Optimization design of electrodes for anode-supported solid oxide fuel cells via genetic algorithm,” Journal of The Electrochemical Society, 158 (2) B143-B151 (2011).
30. Shi, J.; Xue, X., “Bi-functionally Graded Electrode Supported SOFC Modeling and Computational Thermal Fluid Analysis for Experimental Design”, ASME Journal of Fuel Cell Science and Technology, Vol. 8, 2011, 011005—1-10.
29. Z. Xie; X. Xue, “A new plate finite element model for rotating plate structures with constrained damping layer”, Finite Elements in Analysis and Design 47(5):487-495 · May 2011.
28. Ding, H.; Xue, X., “PrBa0.5Sr0.5Co2O5+δ layered perovskite cathode for intermediate temperature solid oxide fuel cells”, Electrochimica Acta, Vol. 55, 2010, pp3812-3816.
27. Shi, J.; Xue, X., “CFD analysis of a novel symmetrical planar SOFC design with micro-flow channels”, Chemical Engineering Journal, Vol. 163, 2010, pp 119-125.
26. Ding, H.; Xue, X., “A novel cobalt-free layered GdBaFe2O5+δ cathode for proton conducting solid oxide fuel cells”, Journal of Power Sources, Vol. 195, 2010, pp 4139-4142.
25. Ding, H.; Xue, X., “BaZr0.1Ce0.7Y0.1Yb0.1O3−δ electrolyte-based solid oxide fuel cells with cobalt-free PrBaFe2O5+δ layered perovskite cathode”, Journal of Power Sources, Vol. 195, 2010, pp 7038-7041.
24. Shi, J.; Xue, X., “CFD analysis of a symmetrical planar SOFC with heterogeneous electrode properties”, Electrochimica Acta, Vol.55, 2010, pp 5263-5273.
23. Ding, H.; Xue, X.; Liu, X.; Meng, G., “High performance protonic ceramic membrane fuel cells (PCMFCs) with Sm0.5Sr0.5CoO3−δ perovskite cathode,” Journal of Alloys and Compounds, Volume 494, 2010, 233.
22. Ding, H., Xue, “Cobalt-free layered perovskite GdBaFe2O5+δ as a novel cathode for intermediate temperature solid oxide fuel cells”, Journal of Power Sources, Vol. 195, 2010, pp 4718.
21. Ding, H.; Xue, X.; Liu, X.; Meng, G., “A novel layered perovskite cathode for proton conducting solid oxide fuel cells,” Journal of Power Sources, Volume 195, 2010, 775.
20. Jin, X. and Xue, X., “Computational fluid dynamics analysis of solid oxide electrolysis cells with delaminations,” International Journal of Hydrogen Energy, Volume 35, Issue 14, July 2010, Pages 7321-7328.
19. Ding, H.; Xue, X., “GdBa0.5Sr0.5Co2O5+δ layered perovskite as promising cathode for proton conducting solid oxide fuel cells”, Journal of Alloys and Compounds, Vol. 496, 2010, pp 683-686.
18. Jin, X. and Xue, X., “Mathematical Modeling Analysis of Regenerative Solid Oxide Fuel Cells in Switching Mode Conditions,” Journal of Power Sources, Volume 195, Issue 19, 1 October 2010, Pages 6652-6658.
17. Ding, H. and Xue, X., “Layered perovskite GdBaCoFeO5+x as cathode for intermediate-temperature solid oxide fuel cells,” International Journal of Hydrogen Energy, Volume 35, Issue 9, May 2010, Pages 4316-4319.
16. Ding, H. and Xue, X., “Novel layered perovskite GdBaCoFeO5+δ as a potential cathode for proton-conducting solid oxide fuel cells,” International Journal of Hydrogen Energy, Volume 35, Issue 9, May 2010, Pages 4311-4315.
15. Ding, H. and Xue, X., “Proton conducting solid oxide fuel cells with layered PrBa0.5Sr0.5Co2O5+δ perovskite cathode,” International Journal of Hydrogen Energy, Volume 35, Issue 6, March 2010, Pages 2486-2490.
14. Y. Xie and Xue, X. “Transient modeling of anode-supported solid oxide fuel cells,” International Journal of Hydrogen Energy, Volume 34, Issue 16, August 2009, Pages 6882-6891.
13. Ding, H.; Xue, X.; Liu, X.; Meng, G. “High performance layered SmBa0.5Sr0.5Co2O5+δ cathode for intermediate-temperature solid oxide fuel cells,” Journal of Power Sources, Volume 194, Issue 2, 2009, Pages 815-817.
12. X. Xue and J. Tang, “Vibration control of nonlinear rotating beam using piezoelectric actuator and sliding mode approach,” Journal of Vibrations and Control, Vol.14 (6), pp885-908, 2008.
11. X. Xue, J. Tang, N. Sammes and Y. Ding, “Model-based condition monitoring of PEM fuel cell using Hotelling T2 control limit,” Journal of Power Sources, Vol. 162, No.1, pp388-399, 2006.
10. X. Xue and J. Tang, “Robust and High Precision Control Using Piezoelectric Actuator Circuit and Integral Continuous Sliding Mode Controller Design,” Journal of Sound and Vibration, Vol. 293, No.1, pp. 335-359, 2006.
9. X. Xue and J. Tang, “A PEM Fuel Cell Dynamic Model with Phase Change Effect,” ASME Journal of Fuel Cell Science and Technology, Vol.2, No.4, pp. 274-283, 2005.
8. X. Xue, J. Tang, N. Sammes and Y. Du, “Dynamic Modeling of Single Tubular SOFC Combining Heat/Mass Transfer and Electrochemical Reaction Effects,” Journal of Power Sources, Vol.142, No.1-2, 24, pp. 211-222, 2005.
7. X. Xue, R. Luck, and J.T. Berry, “Comparisons and Improvements Concerning the Accuracy and Robustness of Inverse Heat Conduction Algorithms,” Inverse Problems in Science and Engineering, Vol.13, No.2, pp. 177-199, 2005.
6. P.R. Pathapati, X. Xue, and J. Tang, “A New Dynamic Model for Predicting Transient Phenomena of PEM Fuel Cell System,” Renewable Energy, Vol.30, No.1, pp.1-22, 2005.
5. X. Xue, J. Tang, A. Smirnova, R. England, and N. Sammes, “System-Level Lumped Parameter Dynamic Modeling of PEM Fuel Cell,” Journal of Power Sources, Vol.133, No.2, pp. 188-204, 2004.
4. X. Xue, R. Luck, B. Dawsey, and J.T. Berry, “Modeling of Temperature Measurement Process with a Thermocouple: A Comprehensive Parametric Study and some Experimental Results,” AFS Transactions, Vol.112, pp.37-54, 2004.
3. X. Xue and D. Qiu, “Robust Compensator Design for Time-Delay Systems with Norm-bounded Time-varying Uncertainties,” IEEE Transactions on Automatic Control, Vol.45, No.7, pp.1363-1369, 2000.
2. X. Xue and D. Qiu, “The Application of Nonlinear Identification to the Evaluation of Machining Precision of the Scroll Plate”, Chinese Journal of Mechanical Science and Technology, Vol.18, No.6, pp.958-960, 1999.
1. J. Zhang, X. Xue, J. Zhu and D. Qiu, “Lubrication Analysis of Engine Piston Skirts”, Chinese Journal of Vehicle Engineering, Vol.1, No.1, pp.26-31, 1997.