147 - 149 |
The arrow of time Scott DS |
151 - 158 |
Studies on the active species and on dispersion of Cu in CU/SiO2 and Cu/Zn/SiO2 for hydrogen production via methanol partial oxidation Wang ZF, Wang WP, Lu GX |
159 - 167 |
Thermodynamic analysis of hydrogen production by steam reforming Lutz AE, Bradshaw RW, Keller JO, Witmer DE |
169 - 175 |
Ni plus Ti composite layers as cathode materials for electrolytic hydrogen evolution Panek J, Serek A, Budniok A, Rowinski E, Lagiewka E |
177 - 196 |
The novel magnecular species of hydrogen and oxygen with increased specific weight and energy content Santilli RM |
197 - 204 |
Liquid-film-type catalytic decalin dehydrogeno-aromatization for long-term storage and long-distance transportation of hydrogen Hodoshima S, Arai H, Saito Y |
205 - 214 |
Development of hydrogen storage for fuel cell generators II: utilization of calcium hydride and lithium hydride Kong VCY, Kirk DW, Foulkes FR, Hinatsu JT |
215 - 222 |
An experimental study of controlling strategies and drive forces for hydrogen fuel cell hybrid vehicles Lee HS, Jeong KS, Oh BS |
223 - 228 |
AM1 treatment of (Li+nH(2))(n=0-5)@C-60 systems Turker L |
229 - 248 |
Hydrogen leakage into simple geometric enclosures Swain MR, Filoso P, Grilliot ES, Swain MN |
249 - 250 |
A new method for producing gaseous hydrogen: general principles Lipovetsky V |