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New Science and Technology: The Basis of the Hydrogen Economy BB1.2
Stanford R. Ovshinsky
The Hydrogen Programs in China BB1.3
Qidong Wang, Changpin Chen Yongquan Lei, Lixing Chen, and Xinghua Wang
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Recent Advances in Solid Hydrogen Storage Systems BB1.4
B.S. Chao, R.C. Young, V. Myasnikov, Y. Li, B. Huang, F. Gingl, P.D. Ferro, V. Sobolev, and S.R. Ovshinsky
Hydrogen Storage Properties of Magnesium Based Nanostructured/Amorphous Composite Materials BB1.5
Ming Au
Hydriding Behavior of Mg-C Nanocomposites BB1.6
A. Bassetti,E. Bonetti, A.L. Fiorini, J. Grbovic, A. Montone, L. Pasquini, and M. Vittori Antisari
Infrared Screening of Combinatorially Prepared Hydrogen Sorbing Metal Alloys BB2.3
C.H. Olk
Properties of the Magnetic Hydride YFe2H4 from First Principles Calculations BB2.5
D.J. Singh and M. Gupta
Hydrogenation of Nanocrystalline Mg-Based Alloys BB3.1
Daniela Zander, Lyudmilla Lyubenova, Uwe Köster, Thomas Klassen, and Martin Dornheim
Hydrogen Absorption of C14 Laves NiTiZr-NiVNb Pseudo-Binary Alloys BB3.2
Kazuhiro Ishikawa, Shintaro Noda, Kiyonori Suzuki, and Kiyoshi Aoki
Hydrogen Diffusion in Zr-Cu-Ni-Al Metallic Glasses BB3.3
Tomaz Apih, Lioba Jastrow , Lyudmila Lyubenova , Janez Dolinšek, Daniela Zander , and Uwe Köster
Synthesis and Characterization of Gd(1-x)SrxCo(1-y)FeyO(3-d) as a Cathode Material for Intermediate Temperature Solid Oxide Fuel Cells BB3.4
C.R. Dyck, G. Yu, and V.D. Krstic
Ab Initio Modelling of Mg:H Interstitial Solid Solutions BB3.5
M. Messina, F. Cleri, and M. Volpe
Effect of Heat Treatment on Properties of Ti-Mn Based Laves Phase Hydrogen Storage Alloys BB3.7
Jang Lijun, Tu Hailing, Chen Yi, Huang Zhuo, and Zhan Feng
Compound Formation in Ti-Doped Sodium Aluminum Hydrides BB4.2
E.H. Majzoub, R. Stumpf, S. Spangler, J. Herberg, and R. Maxwell
Investigation of Ti-Doped NaAlH4 by Solid-State NMR BB4.3
Julie L. Herberg, Robert S. Maxwell and Eric H. Majzoub
Synthesis and Thermal Characteristics of Complex Metal Hydride: NaAlH4 BB4.4
Bouziane Yebka and Gholam-Abbas Nazri
Old Technique for New Materials: Characterization of Solid State Hydrogen Storage Materials by Temperature Programmed Reaction BB4.7
Tecle S. Rufael and Cabral M. Williams
Enhancing Hydrogen Adsorption by Metal Incorporation in Carbon Multi-Wall Nanotubes Produced by Continuous Hot Wire Chemical Vapor Deposition BB5.1
A.C. Dillon, P.A. Parilla, J.L. Alleman, A.H. Mahan, K.E.H. Gilbert, K.M. Jones, and M.J. Heben
Hydrogen Storage using Carbon Materials at Room Temperature BB5.2
H. Kajiura, S. Tsutsui , K. Kadono, Y. Murakami, M. Kakuta, and M. Ata
A Molecular Dynamics Simulation Study Towards Understanding the Effects of Diameter and Chirality on Hydrogen Adsorption in Singlewalled Carbon Nanotubes BB5.3
Hansong Cheng, Alan C. Cooper, Guido P. Pez, Milen K. Kostov, Milton W. Cole, and Steven J. Stuart
Using Nanoporous Carbon Membranes in Fuel Cells BB5.4
Ramanathan Ramnarayanan, Ramakrishnan Rajagopalan, Thomas E. Mallouk, and Henry C. Foley
Ruthenium as Schottky Metal for SiC-Based High Temperature Hydrogen Sensors BB6.2
S. Basu, S. Roy , and C. Jacob
The Electrical Characteristics of a Pd/AlN/Si Thin Film Hydrogen Gas Sensor BB6.3
Erik F. McCullen, Haripriya E. Prakasam, Wenjun Mo, Jagdish Thakur, Ratna Naik, Lajos Rimai, K.Y.S. Ng, Gregory W. Auner
The Influence of Surface Reconstruction and C-impurities on Photocatalytic Water Dissociation by TiO2 BB6.6
Xiliang Nie and Karl Sohlberg
Studies on the Perovskite-Based La4Srn-4TinO3n+2 BB6.7
Jesús Canales-Vázquez, Shawen Tao, Mikhail Patrakeev, John T. S. Irvine, Wuzong Zhou, and Jorge Frade
Novel Pd/SiO2 Membrane Supported on Porous Stainless Steel for High Temperature Hydrogen Separation BB6.8
Caili Su, Tetsuro Jin, Koji Kuraoka, Yasuyuki Matsumura, and Tetsuo Yazawa
Ion Irradiation Effects in Solid Oxide Fuel Cell Electrolytes BB6.10
Jeremy Cheng, Rojana Pornprasertsuk, Yuji Saito, and Fritz B. Prinz
Ab Initio Study of the Hindered Rotation of H2 Over Benzene BB6.11
Seèbastien Hamel and Michel Côtè
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