| 1 - 2 |
IJHE mobilizes to reach Hydrogen Civilization
Veziroglu TN |
| 9 - 19 |
A proposal for a novel multi-functional energy system for the production of hydrogen and power
Jin HG, Xu YJ, Lin RM, Han W |
| 20 - 27 |
Stakeholder perceptions towards the transition to a hydrogen economy in Poland
Murray AL, Seymour EH, Rogut J, Zechowska SW |
| 28 - 33 |
Amorphous Ni-S-Mn alloy as hydrogen evolution reaction cathode in alkaline medium
Shan ZQ, Liu YJ, Chen Z, Warrender G, Tian JH |
| 34 - 42 |
Effect of He-Ne laser irradiation on hydrogen production by Enterobacter aerogenes
Lu WY, Wen JP, Jia XQ, Sun B, Chen Y, Liu MH |
| 43 - 50 |
Temperature effects on fermentative hydrogen production from xylose using mixed anaerobic cultures
Lin CY, Wu CC, Hung CH |
| 51 - 56 |
Apparatus for the production of hydrogen from sodium borohydride in alkaline solution
Pozio A, De Francesco M, Monteleone G, Oronzio R, Galli S, D'Angelo C, Marrucci M |
| 57 - 63 |
Hydrogen from coal-derived methanol via autothermal reforming processes
Yoon HC, Erickson PA |
| 64 - 73 |
Reversible hydrogen storage properties and favorable co-doping mechanism of the metallic Ti and Zr co-doped sodium aluminum hydride
Xiao XZ, Chen LX, Wang XH, Li SQ, Chen CP, Wang QD |
| 74 - 80 |
The catalytic effect of additive Nb(2)O(5) on the reversible hydrogen storage performances of LiBH(4)-MgH(2) composite
Fan MQ, Sun LX, Zhang Y, Xu F, Zhang J, Chu HL |
| 81 - 86 |
Effect of surface treatment on electrochemical properties of MmNi(3.8)Co(0.75)Mn(0.4)Al(0.2) hydrogen storage alloy
Zhao XY, Ding Y, Yang M, Ma LQ |
| 87 - 92 |
Preparation of Mg-23.5Ni-10(Cu or La) hydrogen-storage alloys by melt spinning and crystallization heat treatment
Song M, Yim CD, Kwon S, Bae JS, Hong SH |
| 93 - 97 |
Effect of rare earth (RE) elements on V-based hydrogen storage alloys
Wu CL, Yan Y, Chen YG, Tao MD, Zheng X |
| 98 - 104 |
Simulation and experimental validation of a hydrogen storage tank with metal hydrides
Botzung M, Chaudourne S, Gillia O, Perret C, Latroche M, Percheron-Guegan A, Marty P |
| 105 - 110 |
A DFT study of adsorption hydrogen on the Li-FAU zeolite
Kang LH, Deng WQ, Han KL, Zhang T, Liu ZM |
| 111 - 115 |
Feasibility of H-2-THF-H2O clathrate hydrates for hydrogen storage applications
Talyzin A |
| 116 - 123 |
CO2 activation of ordered porous carbon CMK-1 for hydrogen storage
Xia KS, Gao QM, Song SQ, Wu CD, Jiang JH, Hu J, Gao L |
| 124 - 133 |
Function of Al on the cycling behavior of the La-Mg-Ni-Co-type alloy electrodes
Liu YF, Pan HG, Gao MX, Miao H, Lei YQ, Wang QD |
| 134 - 140 |
A study on the microstructures and electrochemical properties of La0.7Mg0.3Ni2.45-xCrxCo0.75Mn0.1Al0.2 (x=0.00-0.20) hydrogen storage electrode alloys
Miao H, Liu YF, Lin Y, Zhu D, Jiang L, Pan HG |
| 141 - 148 |
Effects of the substitution of Mn for Ni on structures and electrochemical performances of the as-cast and quenched La0.5Ce0.2Mg0.3Co0.4Ni2.6-xMnx (x=0-0.4) electrode alloys
Li BW, Zhang YH, Wu ZW, Shi YC, Pang ZG, Wang XL |
| 149 - 155 |
Electrochemical kinetic performance of V-Ti-based hydrogen storage alloy electrode with different particle sizes
Zhong K, Liu YF, Gao MX, Wang JH, Miao H, Pan HG |
| 156 - 164 |
Three-dimensional numerical study on cell performance and transport phenomena of PEM fuel cells with conventional flow fields
Jang JH, Yan WM, Li HY, Tsai WC |
| 165 - 170 |
Effects of membrane electrode assembly components on proton exchange membrane fuel cell performance
Bayraceken A, Erkan S, Turker L, Eroglu I |
| 171 - 178 |
High temperature operation of PEMFC: A novel approach using MEA with silica in catalyst layer
Vengatesan S, Kim HJ, Lee SY, Cho E, Ha HY, Oh IH, Hong SA, Lim TH |
| 179 - 188 |
Equipment plan of compound interconnection micro-grid composed from diesel power plants and solid polymer membrane-type fuel cell
Obara S |
| 189 - 196 |
Developing TiAlN coatings for intermediate temperature solid oxide fuel cell interconnect applications
Liu XB, Johnson C, Li CM, Xu J, Cross C |
| 197 - 205 |
An attempt to rank copper-based catalysts used in the CO-PROX reaction
Lopez I, Valdes-Solis T, Marban G |
| 206 - 213 |
A comparative study of synthesized and commercial A-type zeolite-supported Pt catalysts for selective CO oxidation in H-2-rich stream
Luengnaruemitchai A, Nimsuk M, Naknam P, Wongkasemjit S, Osuwan S |
| 214 - 224 |
A novel Brayton cycle with the integration of liquid hydrogen cryogenic exergy utilization
Zhang N, Lior N |
| 225 - 231 |
Experimental investigation of laminar LPG-H-2 jet diffusion flame
Kumar P, Mishra DP |
| 232 - 239 |
Stability limits of premixed microflames at elevated temperatures for portable fuel processing devices
Lee KH, Hong YT, Kim KB, Kwon OC |
| 240 - 247 |
Numerical simulation of leaking hydrogen dispersion behavior in a partially open space
Matsuura K, Kanayama H, Tsukikawa H, Inoue M |
| 248 - 251 |
A new method for determining kinetic parameters by simultaneously considering all the independent conditions at an overpotential. in case of hydrogen evolution reaction following Volmer-Heyrovsky-Tafel mechanism
Bhardwaj M, Balasubramaniam R |
| 257 - 257 |
Guest editorial
Jain IP |
| 258 - 263 |
Biohydrogen as a renewable energy resource - Prospects and potentials
Kotay SM, Das D |
| 264 - 272 |
Catalyst development for thermocatalytic decomposition of methane to hydrogen
Konieczny A, Mondal K, Wiltowski T, Dydo P |
| 273 - 278 |
Reverse micelles as suitable microreactor for increased biohydrogen production
Pandey A, Pandey A |
| 279 - 286 |
Comparison of biohydrogen production processes
Manish S, Banerjee R |
| 287 - 292 |
Pd-C powder and thin film catalysts for hydrogen production by hydrolysis of sodium borohydride
Patel N, Patton B, Zanchetta C, Fernandes R, Guella G, Kale A, Miotello A |
| 293 - 302 |
Reaction swing approach for hydrogen production from carbonaceous fuels
Wiltowski T, Mondal K, Campen A, Dasgupta D, Konieczny A |
| 303 - 311 |
Robust, high reactivity and enhanced capacity carbon dioxide removal agents for hydrogen production applications
Dasgupta D, Mondal K, Wiltowski T |
| 312 - 318 |
Nanostructured hematite for photoelectrochemical generation of hydrogen
Satsangi VR, Kumari S, Singh AP, Shrivastav R, Dass S |
| 319 - 326 |
Catalytic decomposition of sulfuric acid on mixed Cr/Fe oxide samples and its application in sulfur-iodine cycle for hydrogen production
Banerjee AM, Pai MR, Bhattacharya K, Tripathi AK, Kamble VS, Bharadwaj SR, Kulshreshtha SK |
| 327 - 331 |
Hydrogen separation in doped and blend polymer membranes
Acharya NK, Kulshrestha V, Awasthi K, Jain AK, Singh M, Vijay YK |
| 332 - 339 |
Separation of hydrogen from syngas using a regenerative system
Campen A, Mondal K, Wiltowski T |
| 340 - 345 |
Nuclear track filters for hydrogen purification
Vijay YK |
| 346 - 349 |
Study of hydrogen transport through porous aluminum and composite membranes
Jain AK, Acharya NK, Kulshreshtha V, Awasthi K, Singh M, Vijay YK |
| 350 - 355 |
Hydrogen absorption characteristics of zr substituted Ti0.85VFe0.15 alloy
Basak S, Shashikala K, Kulshreshtha SK |
| 356 - 359 |
Structural and thermodynamical investigations of La0.23Ni0.34Co0.33Nd0.08Ti0.01Al0.01 hydrogen storage alloy
Jain A, Jain RK, Agarwal S, Jain IP |
| 360 - 365 |
Chemical hydrides: A solution to high capacity hydrogen storage and supply
Biniwale RB, Rayalu S, Devotta S, Ichikawa M |
| 366 - 373 |
Dehydriding behaviour of LiAIH4 - the catalytic role of carbon nanofibres
Kumar LH, Viswanathan B, Murthy SS |
| 374 - 380 |
Nanoscale Mg-based materials for hydrogen storage
Jurczyk M, Smardz L, Okonska I, Jankowska E, Nowak M, Smardz K |
| 381 - 386 |
Synthesis and hydrogen storage properties of carbon nanotubes
Rakhi RB, Sethupathi K, Ramaprabhu S |
| 387 - 392 |
XPS Valence band and segregation effect in nanocrystalline Mg2Ni-type materials
Smardz K, Smardz L, Okonska I, Nowak M, Jurczyk M |
| 393 - 403 |
Boron substituted carbon nanotubes - How appropriate are they for hydrogen storage?
Sankaran M, Viswanathan B, Murthy SS |
| 404 - 407 |
Hydrogen absorption mechanism in obliquely deposited MmNi(4.5)Al(0.5) thin film
Vashistha A, Sharma P, Agarwal G, Jain IP |
| 408 - 412 |
Activation energy of obliquely deposited MmNi(4.5)Al(0.5) and MmNi(4.5)Al(0.5)H(x) thin films
Jain IP, Vashistha M, Sharma P, Jain RK, Devi B |
| 413 - 416 |
Correlation between hydrogen absorption, electrical resistivity and optical properties in La28.9Ni67.5Si3.6 thin film
Jain RK, Jain A, Agarwal G, Jain IP |
| 417 - 422 |
Glass micro-container based hydrogen storage scheme
Kohli DK, Khardekar RK, Singh R, Gupta PK |
| 423 - 426 |
Electricity generation using microbial fuel cells
Mohan Y, Kumar SMM, Das D |
| 427 - 433 |
Pt-Ru/multi-walled carbon nanotubes as electrocatalysts for direct methanol fuel cell
Jha N, Reddy ALM, Shaijumon MM, Rajalakshmi N, Ramaprabhu S |
| 434 - 438 |
Studies on thermal and structural properties of glasses as sealants for solid oxide fuel cells
Kumar V, Arora A, Pandey OP, Singh K |
| 439 - 448 |
Performance prediction of proton exchange membrane fuel cells using a three-dimensional model
Rismanchi B, Akbari MH |
| 449 - 454 |
Design and development of modular fuel cell stacks for various applications
Rajalakshmi N, Pandiyan S, Dhathathreyan KS |
| 455 - 462 |
Synthesis and characterization of bismuth vanadate electrolyte material with aluminium doping for SOFC application
Kant R, Singh K, Pandey OP |
| 463 - 469 |
Performance tests on a thermally operated hydrogen compressor
Muthukumar P, Maiya AP, Murthy SS |
| 470 - 475 |
Significance of electrode-spacing in hydrogen detection for tin oxide-based MEMS sensor
Shukla S, Zhang P, Cho HJ, Ludwig L, Seal S |
