217th ECS Meeting - Vancouver, Canada

April 25 - April 30, 2010

PROGRAM INFORMATION
 

G3 - Electrochemical Technologies for Hydrogen Production

Industrial Electrochemistry and Electrochemical Engineering/Energy Technology/High Temperature Materials
 

Tuesday, April 27, 2010

Exhibit and Poster Hall, Conference Hall, Fairmont

Poster Session

Co-Chairs: J. W. Weidner, V. (Ravi) Subramanian
TimeAbs#Title and Authors
o   1322   La2O3-Modified Nickel-Cobalt Composite Coating for HER Cathode in Acid Medium Y. Liang, P. He, Q. Jiang, J. Sun (Southwest University of Science and Technology) and H. Liu (Central South University)
o   1323   Hydrogen Evolution on the Y2O3–Modified Ni-Co Composite Layers X. Yi, P. He, Y. Liang, Y. Chen, J. Sun and Q. Jiang (Southwest University of Science and Technology)
o   1324   Effect of Gd2O3 on the Hydrogen Evolution Property of Nickel-Cobalt Coatings Electrodeposited on Titanium Substrate X. Yi, P. He, Y. Liang, Y. Chen, J. Sun and Q. Jiang (Southwest University of Science and Technology)
o   1325   Exploration of Surface Treatments for Semiconductor-Based Photoelectrochemical Water Splitting K. Menningen (University of Wisconsin, Stevens Point)
o   1326   Fabrication of Co-Ni-P Catalysts on TiO2 Nanotube Substrate and the Catalytic Generation of Hydrogen from an Alkaline NaBH4 Solution K. Yun, W. Beom and C. Park (Chonnam National University)
 

Wednesday, April 28, 2010

Plaza C, 2nd Floor, Hyatt

Water Electrolysis

Co-Chairs: S.N. Lvov, M. Williams
TimeAbs#Title and Authors
08:00   1327   Bimetallic Electrocatalysts Supported on TiO2 for PEM Water Electrolyzer R. E. Fuentes (University of South Carolina), S. Rau, T. Smolinka (Fraunhofer Institute for Solar Energy Systems) and J. Weidner (University of South Carolina)
08:20   1328   Exploring Tin Tantalates and Niobates as Prospective Catalyst Supports for Water Electrolysis O. Velikokhatnyi and P. Kumta (University of Pittsburgh)
08:40   1329   Influence of the Electrolyte on Electrochemical Properties of Iridium Oxide Films L. Owe, M. Tsypkin, I. Lervik and S. Sunde (Norwegian University of Science and Technology)
09:00   1330   Oxygen Evolution Catalysts for Alkaline Water Electrolysers X. Li, D. Pletcher and F. Walsh (University of Southampton)
09:20   1331   Catalytic Inverse Opals for Water Electrolysis in an Alkaline Electrolyte L. Wang, Y. Chang and P. Wu (National Chiao Tung University)
 

Other than Water Electrolysis

Co-Chairs: M. Williams, S.N. Lvov
TimeAbs#Title and Authors
10:00   1332   Polymer Electrolyte Membranes for the Hybrid Sulfur Thermochemical Cycle J. A. Staser and J. Weidner (University of South Carolina)
10:20   1333   Quantification of Voltage Loss in the Proton Exchange Membrane Reactor for Electrolyzing Hydrogen Bromide to Produce Hydrogen R. Zhang and J. Weidner (University of South Carolina)
10:40   1334   CuCl-HCl Electrolysis for Hydrogen Production in the Cu-Cl Thermochemical Cycle V. Balashov, R. Schatz, E. Chalkova, M. Fedkin and S. N. Lvov (The Pennsylvania State University)
11:00   1335   High Performance Anode Materials for Hydrogen Production Via the Cu-Cl Thermochemical Cycle E. Easton and S. Ranganathan (University of Ontario Institute of Technology)
11:20   1336   Comments on the Undesirable Copper Deposition during Electrolysis of the CuCl/HCl Aqueous System for the Production of Hydrogen M. Reda (CanadElectrochim)
 

High Temperature Electrolysis

Co-Chairs: J. W. Weidner, V. (Ravi) Subramanian
TimeAbs#Title and Authors
14:00   1337   SOFC-Driven Steam-Carbon Electrolyzer for CO-Free Hydrogen Production B. R. Alexander, A. Lee, R. Mitchell and T. Gür (Stanford University)
14:20   1338   Origin of Polarisation Losses in Solid Oxide Electrolysis Cells Operated at High Current Density R. Knibbe, S. Ebbesen (Risø DTU) and M. Mogensen (Technical University of Denmark)
 

Electrochemical Processing of Hydrogen

Co-Chairs: V. (Ravi) Subramanian, J. W. Weidner
TimeAbs#Title and Authors
14:40   1339   High Pressure Electrochemical Hydrogen Purification Process Using a High-Temperature Polybenzimidazole (PBI) Membrane J. Jiang (University of North Dakota), T. Aulich and K. Luo (Energy & Environmental Research Center)
15:00   1340   Electrochemical Compression of Hydrogen G. Sozhan, S. Vasudevan, S. Ravichandran, R. Balaji, S. Navaneethakrishnan, A. Sankari and J. Lakshmi (CECRI)
 

Thursday, April 29, 2010

Plaza C, 2nd Floor, Hyatt

Solar Electrolysis I

Co-Chairs: V. (Ravi) Subramanian, S.N. Lvov
TimeAbs#Title and Authors
08:00   1341   A Solar Process to End Anthropogenic Global Warming? The STEP (Solar Thermal Electrochemical Photo) Generation of Energetic Molecules S. Licht (George Washington University)
08:20   1342   Modelling and Evaluation of a Photoelectrochemical Reactor for H2 Production C. Carver, Z. Ulissi, C. Ong, S. Dennison, K. Hellgardt and G. Kelsall (Imperial College London)
08:40   1343   (Invited) New Materials Search for Solar Hydrogen Using Nanowires M. K. Sunkara, C. Pendyala, B. Chernomordik, D. Cummins, H. Russell, J. Kim and J. Thangala (University of Louisville)
09:20   1344   Conductive Polymer-Titania Photocathode Development for Hydrogen Production D. Bruce (UBC) and D. Wilkinson (University of British Columbia)
 

Solar Electrolysis II

Co-Chairs: S.N. Lvov, V. (Ravi) Subramanian
TimeAbs#Title and Authors
10:00   1345   Hybrid Noble Metal-Semiconductor Nanomaterials for Efficient Electrochemical Hydrogen Generation M. Dirmyer, E. Luther, A. Burrell, B. Tappan and A. H. Mueller (Los Alamos National Lab)
10:20   1346   Nanostructured MoS2 for Solar Hydrogen Production Z. Chen, S. Choi, J. Kibsgaard and T. Jaramillo (Stanford University)
10:40   1347   In Search of Efficient Anode and Cathode Materials for Double Junction Amorphous Solar Cell Driven all Solar Electrolysis of Water to Hydrogen and Oxygen Gases M. Frites (Duquesne University), W. Ingler Jr. (University of Toledo) and S. U. Khan (Duquesne University)
11:00   1348   Manganese Oxide Thin Films for Photoelectrochemical Hydrogen Production B. A. Pinaud and T. Jaramillo (Stanford University)
11:20   1349   Photoelectrochemical Behavior of Birnessite-type MnO2 Nanosheet in Response to Visible Light Y. Hsu (Institute of Atomic and Molecular Sciences, Academia Sinica), Y. Chen, L. Chen (National Taiwan University) and K. Chen (Institute of Atomic and Molecular Sciences, Academia Sinica)