| 459 - 470 |
Solar water splitting to generate hydrogen fuel - a photothermal electrochemical analysis
Licht S |
| 471 - 483 |
Continuous fermentative hydrogen production from sucrose and sugarbeet
Hussy I, Hawkes FR, Dinsdale R, Hawkes DL |
| 485 - 499 |
The phase-shift method for determining Langmuir adsorption isotherms of over-potentially deposited hydrogen for the cathodic H-2 evolution reaction at poly-Re/aqueous electrolyte interfaces
Chun JH, Jeon SK, Ra KH, Chun JY |
| 501 - 508 |
Comparative evaluation of Mg-Ni hydrogen absorbing materials prepared by mechanical alloying
Vijay R, Sundaresan R, Maiya MP, Murthy SS |
| 509 - 514 |
Kinetics of hydrogen desorption from a metal to a closed reservoir
Feldman EP, Alexeev AD, Melnik TN, Gumen LN |
| 515 - 519 |
Study of thermodynamic parameters of hydrogen gas by grapho-analytic method
Ibrahimoglu B, Veziroglu TN, Huseynov A |
| 521 - 544 |
Solar-hydrogen: Environmentally safe fuel for the future
Nowotny J, Sorrell CC, Sheppard LR, Bak T |
| 545 - 553 |
Hydrogen as fuel: a critical technology?
Baykara SZ |
| 555 - 557 |
The hydrogen-oxygen project in Barth
Haas F, Jain A, Lehmann J, Luschtinetz O, Schefler R |
| 559 - 564 |
A critical pathway energy efficiency analysis of the thermochemical UT-3 cycle
Teo ED, Brandon NP, Vos E, Kramer GJ |
