| 245 - 245 |
Proceedings of the Korea Conference on Innovative Science and Technology (KCIST-2005): Frontiers in Hydrogen Storage Materials and Technology - Gyeongju, Korea - 4-7 December 2005 - Preface
Nam SW, Kim JW, Nam IS |
| 246 - 256 |
The US Department of Energy's National Hydrogen Storage Project: Progress towards meeting hydrogen-powered vehicle requirements
Satyapal S, Petrovic J, Read C, Thomas G, Ordaz G |
| 257 - 261 |
Tuning clathrate hydrates: Application to hydrogen storage
Kim DY, Park Y, Lee H |
| 262 - 269 |
Enhanced hydrogen sorption kinetics of magnesium by destabilized MgH2-delta
Borgschulte A, Bosenberg U, Barkhordarian G, Dornheim M, Bormann R |
| 270 - 275 |
Hydrogen sorption of magnesium hydride doped with nano-sized TiO2
Jung KS, Kim DH, Lee EY, Lee KS |
| 276 - 280 |
Hydriding properties of Mg-xNi alloys with different microstructures
Yim CD, You BS, Na YS, Bae JS |
| 281 - 286 |
Hydrogen-storage properties of a Mg-based mixture prepared by reactive mechanical grinding with ultrafine Fe2O3 particles and Ni
Song M, Kwon S, Hong SH, Park C, Baek S, Kim H, Mumm DR, Bae JS |
| 287 - 291 |
Large amount of hydrogen desorption and stepwise phase transition in the chemical reaction of NaNH2 and LiAlH4
Xiong ZT, Hu JJ, Wu GT, Liu YF, Chen P |
| 292 - 297 |
Thermal decomposition of Li3AlH6 with TiAl3 catalyst
Shim JH, Lee GJ, Lee BJ, Oh YJ, Cho YW |
| 298 - 304 |
Effects of electrodeposited Co and Co-P catalysts on the hydrogen generation properties from hydrolysis of alkaline sodium borohydride solution
Cho KW, Kwon HS |
| 305 - 310 |
A structured Co-B catalyst for hydrogen extraction from NaBH4 solution
Lee J, Kong KY, Jung CR, Cho E, Yoon SP, Han J, Lee TG, Nam SW |
| 311 - 316 |
The role of vacancies in the hydrogen storage properties of Prussian blue analogues
Kaye SS, Long JR |
| 317 - 323 |
Quantitative structure-uptake relationship of metal-organic frameworks as hydrogen storage material
Kim D, Kim J, Jung DH, Lee TB, Choi SB, Yoon JH, Kim J, Choi K, Choi SH |
| 324 - 329 |
A porous mixed-valent iron MOF exhibiting the acs net: Synthesis, characterization and sorption behavior of Fe3O(F4BDC)(3)(H2O)(3)center dot(DMF)(3.5)
Yoon JH, Choi SB, Oh YJ, Seo MJ, Jhon YH, Lee TB, Kim D, Choi SH, Kim J |
| 330 - 335 |
Understanding the mechanism of hydrogen adsorption into metal organic frameworks
Lee TB, Kim D, Jung DH, Choi SB, Yoon JH, Kim J, Choi K, Choi SH |
| 336 - 340 |
H-2 sorption in HCl-treated polyaniline and polypyrrole
Cho SJ, Choo K, Kim DP, Kim JW |
| 341 - 345 |
Why boron nitride nanotubes are preferable to carbon nanotubes for hydrogen storage? An ab initio theoretical study
Mpourmpakis G, Froudakis GE |
| 346 - 350 |
Synthesis of boron nitride nanotubes and its hydrogen uptake
Lim SH, Luo JZ, Ji W, Lin J |
| 351 - 357 |
Hydrogen diffusion in quasicrystalline and amorphous Zr-Cu-Ni-Al
Dolinsek J, Apih T, Klanjsek M, Kim HJ, Koster U |
| 358 - 362 |
Synthesis and H-2 uptake of Cu-2(OH)(3)Cl, Cu(OH)(2) and CuO nanocrystal aggregate
Lee SC, Park SH, Lee SM, Lee JB, Kim HJ |
| 363 - 367 |
H-2 uptake and synthesis of the fluorinated Li-dispersed nickel oxide nanotubes
Lee JB, Lee SC, Lee SM, Kim HJ |
| 368 - 373 |
Hydrogen adsorption in a copper ZSM5 zeolite - An inelastic neutron scattering study
Ramirez-Cuesta AJ, Mitchell PCH |
| 374 - 382 |
Molecular simulation of hydrogen adsorption in organic zeolite
Song MK, No KT |
| 383 - 388 |
A theoretical study of activated nanostructured materials for hydrogen storage
Jhi SH |
| 389 - 398 |
Hydrogen adsorption and storage on porous materials
Thomas KM |
| 399 - 406 |
Hydrogen adsorption characteristics of activated carbon
Jin H, Lee YS, Hong I |
| 407 - 412 |
Hydrogen storage on Li-doped single-walled carbon nanotubes: Computer simulation using the density functional theory
Cho JH, Park CR |
| 413 - 419 |
Graphite nanofibers prepared from catalytic graphitization of electrospun poly(vinylidene fluoride) nanofibers and their hydrogen storage capacity
Hong SE, Kim DK, Jo SM, Kim DY, Chin BD, Lee DW |
| 420 - 425 |
The adsorption properties of surface modified activated carbon fibers for hydrogen storages
Lee YS, Kim YH, Hong JS, Suh JK, Cho GJ |
| 426 - 431 |
Intrinsic linear scaling of hydrogen storage capacity of carbon nanotubes with the specific surface area
Zacharia R, Kim KY, Hwang SW, Nahm KS |
