High Temperature Electrochemistry Center

Collaborating Faculty


Eric Wachsman, Director
Professor, Materials Science

Device Performance

• Solid oxide fuel cells

• Solid state gas sensors

•Ion transport membranes

 
                                                          


Selected Relevant Publications:

"Hydrogen Production from Fossil Fuels with High Temperature Ion Conducting Ceramics," E. D. Wachsman and M.C. Williams, in Interface, The Electrochemical Society, 13-3, 32-37, (2004).

"Sensing Properties and Selectivities of a WO₃/YSZ/Pt Potentiometric NO_x Sensor," J. Yoo and E. D. Wachsman, Sensors & Actuators: B, submitted.

“Stable High Conductivity Bilayered Electrolytes for Low Temperature Solid Oxide Fuel Cells,” J.Y. Park and E.D. Wachsman, Journal of the Electrochemical Society, submitted.

“Selective Potentiometric Detection of NO_x by Differential Electrode Equilibria,” E.D. Wachsman, Journal of the Electrochemical Society, submitted.

"Defect Structure and Transport Properties of Ni-SrCeO_{3- d} Cermet for Hydrogen Separation Membrane," S. J. Song, T. H. Lee, E. D. Wachsman, L. Chen, S. E. Dorris, and U. Balachandran, Journal of the Electrochemical Society, submitted.

“Fabrication and Characterization of High Conductivity Bilayered Electrolytes for Intermediate Temperature Solid Oxide Fuel Cells,” J.Y. Park and E.D. Wachsman, Journal American Ceramic Society, accepted.

“Fabrication of Anode Supported Thick Film Ceria Electrolytes for IT-SOFCs,” A. Jaiswal and E.D. Wachsman, Ionics, accepted.

“Lower Temperature Electrolytic Reduction of CO₂ to O₂ and CO with High Conductivity Solid Oxide Bilayer Electrolytes,” J.Y. Park and E.D. Wachsman, Journal of the Electrochemical Society, accepted.

"Hydrogen Permeability and Effect of Microstructure on Mixed Protonic-Electronic Conducting Eu-doped Strontium Cerate," S. J. Song, E. D. Wachsman, J. Rhodes, H. –S. Yoon, K. –H. Lee, G. Zhang, S. E. Dorris, and U. Balachandran, Journal of Materials Research, accepted.

"Hydrogen Permeability of SrCe_0.95 Eu_0.05 O_3-d(x = 0.05, M = Eu, Sm)," S. J. Song, E. D. Wachsman, J. Rhodes, S. E. Dorris, and U. Balachandran, Solid State Ionics, 167, 99-105 (2004).

“Selective Potentiometric Detection of NO_x by Differential Electrode Equilibria,” E.D. Wachsman, Solid State Ionic Devices III, Electrochem. Soc., E.D. Wachsman, K.S. Lyons, M. Carolyn, F. Garzon, M. Liu, and J. Stetter, Ed., 2002-26, 215-221 (2003).

“Modeling the Performance and Stability of Bilayer Electrolytes for Low-Temperature Solid Oxide Fuel Cells,” K.L. Duncan and E.D. Wachsman, Solid State Ionic Devices III, Electrochem. Soc., E.D. Wachsman, K.S. Lyons, M. Carolyn, F. Garzon, M. Liu, and J. Stetter, Ed., 2002-26, 308-318 (2003).

“Stable High Conductivity Bilayered Electrolytes for Low Temperature Solid Oxide Fuel Cells,” J.Y. Park and E.D. Wachsman, Solid Oxide Fuel Cells VIII, Electrochem. Soc., S.C. Singhal and M. Dokiya, Ed, 2003-07, 289-298 (2003).

"Functionally Gradient Bilayer Oxide Membranes and Electrolytes," E. D. Wachsman, Solid State Ionics, 152-153, 657-662 (2002).

"Stable Mixed-Conducting Bilayer Membranes for Direct Conversion of Methane to Syngas," E. D. Wachsman and T.L. Clites, Journal of the Electrochemical Society, 149 (3) A242-246 (2002).

"Selective Detection of NO_x by Differential Electrode Equilibria," E.D. Wachsman and P.Jaiyaweera, Solid State Ionic Devices II - Ceramic Sensors, Electrochem. Soc., E.D. Wachsman, W. Weppner, E. Traversa, M. Liu, P. Vanysek, and N. Yamazoe, Ed., 2000-32, 298-304 (2001).

"Solid State Chemical Sensors for CO," A.M. Azad and E.D. Wachsman, Solid State Ionic Devices II - Ceramic Sensors, Electrochem. Soc., E.D. Wachsman, W. Weppner, E. Traversa, M. Liu, P. Vanysek, and N. Yamazoe, Ed., 2000-32, 455-466 (2001).

"Synthesis and Characterization of Two-Phase Mixed Protonic Electronic Conductors," B. Krishnamurthy and E.D. Wachsman, Solid State Ionic Devices II - Ceramic Sensors, Electrochem. Soc., E.D. Wachsman, W. Weppner, E. Traversa, M. Liu, P. Vanysek, and N. Yamazoe, Ed., 2000-32, 125-136 (2001).

"Mixed Protonic Electronic Barium Cerates for Hydrogen Separation," J. Rhodes and E. D. Wachsman, Solid State Ionic Devices II - Ceramic Sensors, Electrochem. Soc., E.D. Wachsman, W. Weppner, E. Traversa, M. Liu, P. Vanysek, and N. Yamazoe, Ed., 2000-32, 137-147 (2001).

"Ceria/Bismuth Oxide Bilayered Electrolytes for Low Temperature Solid Oxide Fuel Cells," E. D. Wachsman and K. L. Duncan, SOFC-VI, Electrochem. Soc., S.C. Singhal, Ed., 99-19, 264-274 (1999).

"Mixed-Conducting Barium Cerate Membranes for Hydrogen Separation," J. M. Rhodes and E. D. Wachsman, Solid State Ionic Devices, Electrochem. Soc., E.D. Wachsman, J. Akridge, M. Liu, and N. Yamazoe, Ed., 99-13, 151-158 (1999).

"Development of Stable Mixed-Conducting Bilayer Membranes for Direct Conversion of Methane to Syngas," T.L. Clites and E. D. Wachsman, Solid State Ionic Devices, Electrochem. Soc., E.D. Wachsman, J. Akridge, M. Liu, and N. Yamazoe, Ed., 99-13, 110-120 (1999).

"Stable High Conductivity Functionally Gradient Bilayered Solid Oxide Electrolytes and Membranes," E. D. Wachsman, P. Jayaweera, N. Jiang, D. M. Lowe, and B.G. Pound, Ceramic Membranes, H.U. Anderson, A.C. Khankar, and M. Liu, eds., The Electrochemical Society Inc., Pennington, NJ, 95-24, 237 (1997).