| 19 - 35 |
How far away is hydrogen? Its role in the medium and long-term decarbonisation of the European energy system
Sgobbi A, Nijs W, De Miglio R, Chiodi A, Gargiulo M, Thiel C |
| 36 - 45 |
Development and characterization of new nickel coatings for application in alkaline water electrolysis
Kuleshov VN, Kuleshov NV, Grigoriev SA, Udris EY, Millet P, Grigoriev AS |
| 46 - 51 |
Palladium nanoparticles as hydrogen evolution reaction (HER) electrocatalyst in electrochemical methanol reformer
Mahesh KN, Balaji R, Dhathathreyan KS |
| 52 - 68 |
A numerical study of the gas-liquid, two-phase flow maldistribution in the anode of a high pressure PEM water electrolysis cell
Olesen AC, Romer C, Kaer SK |
| 69 - 78 |
Maghemite nanorods anchored on a 3D nitrogen-doped carbon nanotubes substrate as scalable direct electrode for water oxidation
Sharifi T, Kwong WL, Berends HM, Larsen C, Messinger J, Wagberg T |
| 79 - 86 |
Preparation of palladium/NaX/PSS membrane for hydrogen separation
Mobarake MD, Samiee L |
| 87 - 93 |
Modification of the shrinking core model for hydrogen generation by reaction of aluminum particles with water
Razavi-Tousi SS, Szpunar JA |
| 94 - 103 |
Simplification of the zinc-sulfur-iodine thermochemical cycle for the production of H-2 and CO
Zhang YW, Nie TT, Qiu KZ, Zhou JH, Wang ZH, Liu JZ, Cen KF |
| 104 - 112 |
Integrated hydrogen production and power generation from microalgae
Aziz M |
| 113 - 122 |
Role of the physicochemical properties of hausmannite on the hydrogen production via the Mn3O4-NaOH thermochemical cycle
Bayon A, O'Shea VAD, Coronado JM, Serrano DP |
| 123 - 131 |
Enhanced photoelectrochemical water oxidation by ZnxMyO (M = Ni, Co, K, nanorod arrays
Lee WC, Canciani GE, Alwhshe BOS, Chen Q |
| 132 - 138 |
Experimental investigation on biogas reforming to hydrogen rich syngas production using solar energy
Rathod VP, Shete J, Bhale PV |
| 139 - 144 |
A nickel phosphotungstate catalyst for efficient visible-light-driven H-2 evolution from water splitting in a noble-metal-free system
Wu WM, Wu XY, Zhang L, Xiong JH, Wu L, Lu CZ |
| 145 - 156 |
Biohydrogen production from de-oiled rice bran as sustainable feedstock in fermentative process
Azman NF, Abdeshahian P, Kadier A, Al-Shorgani NKN, Salih NKM, Lananan I, Hamid AA, Kalil MS |
| 157 - 166 |
Hydrogen production by glycerol steam reforming: How Mg doping affects the catalytic behaviour of Ni/Al2O3 catalysts
Dieuzeide ML, Laborde M, Amadeo N, Cannilla C, Bonura G, Frusteri F |
| 167 - 173 |
The effects of Fe-0 and Ni-0 nanoparticles versus Fe2+ and Ni2+ ions on dark hydrogen fermentation
Taherdanak M, Zilouei H, Karimi K |
| 174 - 180 |
Sugarcane bagasse supercritical water gasification in presence of potassium promoted copper nano-catalysts supported on gamma-Al2O3
Tavasoli A, Barati M, Karimi A |
| 181 - 189 |
Effect of culture conditions on hydrogen production by Thermoanaerobacter strain AK68
Vipotnik Z, Jessen JE, Scully SM, Orlygsson J |
| 190 - 197 |
Enhancing photo-fermentative hydrogen production performance of Rhodobacter capsulatus by disrupting methylmalonate-semialdehyde dehydrogenase gene
Zhang Y, Yang HH, Guo LJ |
| 198 - 207 |
Catalytic performance of ceria-supported cobalt catalyst for CO-rich hydrogen production from dry reforming of methane
Ayodele BV, Khan MR, Cheng CK |
| 208 - 218 |
A CFD model for partial oxidation of methane over self-sustained electrochemical promotion catalyst
Huang H, Zhou XY, Liu HT |
| 219 - 226 |
In situ synthesis of cobalt-based tri-metallic nanosheets as highly efficient catalysts for sodium borohydride hydrolysis
Wang X, Zhao YC, Peng XL, Jing C, Hu WJ, Tian SS, Tian JN |
| 227 - 238 |
Cold spray as a novel method for development of nickel electrode coatings for hydrogen production
Aghasibeig M, Monajatizadeh H, Bocher P, Dolatabadi A, Wuthrich R, Moreau C |
| 239 - 248 |
Kinetic properties of Cobalt-Titanium-Boride (Co-Ti-B) catalysts for sodium borohydride hydrolysis reaction
Aydin M, Hasimoglu A, Ozdemir OK |
| 249 - 254 |
Hydrogen evolution catalyzed by a water-soluble cobalt(II) complex with picolinic acid ions
Fu LZ, Tang LZ, Zhang YX, Liang QN, Fang C, Zhan SZ |
| 255 - 264 |
One-pot synthesis of Pt/SnO2/GhTs and its electro-photo-synergistic catalysis for methanol oxidation
Lei FL, Li ZS, Ye LT, Wang YL, Lin S |
| 265 - 275 |
Methanol oxidation on sputter-coated platinum oxide catalysts
Rednyk A, Johanek V, Khalakhan I, Dubau M, Vorokhta M, Matolin V |
| 276 - 284 |
Catalytic hydrolysis of sodium borohydride via nanostructured cobalt-boron catalysts
Wang Y, Li TL, Bai SC, Qi KZ, Cao ZQ, Zhang K, Wu SW, Wang D |
| 285 - 293 |
A novel and chemical stable Co-B nanoflakes-like structure supported over titanium dioxide nanofibers used as catalyst for hydrogen generation from ammonia borane complex
Yousef A, Brooks RM, El-Halwany MM, Obaid M, El-Newehy MH, Al-Deyab SS, Barakat NAM |
| 294 - 299 |
Effect of pH on the growth of MoS2 (002) plane and electrocatalytic activity for HER
Hu WH, Han GQ, Dai FN, Liu YR, Shang X, Dong B, Chai YM, Liu YQ, Liu CG |
| 300 - 306 |
Dealloyed different atom ratios Pd-x(FeCo)(10-x), nanoparticle: Promising electrocatalyst towards ethylene glycol oxidation
Wang W, Yang Y, Liu YQ, Wang FX, Kang YM, Lei ZQ |
| 307 - 315 |
Hydrogen flux through the membrane based on the Pd-In-Ru foil
Didenko LP, Savchenko VI, Sementsova LA, Bikov LA |
| 316 - 323 |
Effect of flow configuration on Darcian and Forchheimer permeabilities determination in a porous composite tube
Najmi H, El-Tabach E, Chetehouna K, Gascoin N, Falempin F |
| 324 - 330 |
Composite melt-blown nonwoven fabrics with large pore size as Li-ion battery separator
Wang H, Zhang Y, Gao HP, Jin XY, Xie XH |
| 331 - 341 |
A morphology and property study of composite membranes based on sulfonated polyarylene ether sulfone and adequately sulfonated graphene oxide
Miao SL, Zhang HQ, Li XB, Wu YQ |
| 342 - 354 |
Modeling of cryo-adsorption of hydrogen on MOF-5 pellets: Effect of pellet properties on moderate pressure refueling
Ortmann JP, Kaisare NS |
| 355 - 360 |
Facile synthesis of graphene-titanium dioxide nanocomposites as anode materials for Na-ion batteries
Feng JM, Dong L, Han Y, Li XF, Li DJ |
| 361 - 368 |
Molten salt synthesis of La(Ni1-xCox)(5) (x=0, 0.1, 0.2, 0.3) type hydrogen storage alloys
Anik M, Hatirnaz NB, Aybar AB |
| 369 - 374 |
Experimental investigation of hydrogen adsorption in doped silicon-carbide nanotubes
Barghi SH, Tsotsis TT, Sahimi M |
| 375 - 383 |
Hydrogenation mechanism of small fullerene cages
EL-Barbary AA |
| 384 - 391 |
Synthesis of lithium octahydrotriborate and investigation on its thermal decomposition
Fu H, Wang XJ, Shao YQ, Chen J, Zhang X, Fu H, Zheng J, Li XG |
| 392 - 400 |
Accurate prediction of hydrogen storage capacity of small boron nitride nanocages by dispersion corrected semi-empirical PM6-DH2 method
Kinal A, Sayhan S |
| 401 - 406 |
Experimental set-up for investigations of hydrogen-sorption characteristics of carbon nanomaterials
Schur DV, Gabdullin MT, Zaginaichenko SY, Veziroglu TN, Lototsky MV, Bogolepov VA, Savenko AF |
| 407 - 412 |
Regeneration of alkaline metal amidoboranes with high purity
Tang ZW, Zhang LJ, Wan L, Huang ZG, Liu HK, Guo ZP, Yu XB |
| 413 - 424 |
Numerical simulation of heat and mass transfer during hydrogen desorption in metal hydride storage tank by Lattice Boltzmann method
Valizadeh M, Delavar MA, Farhadi M |
| 425 - 430 |
Hydrogen occlusion behaviors of ZrVFe alloys under mild hydrogen pressures and lowering of their hydrogen desorption temperatures
Watanuki Y, Toyama T, Kojima Y, Nishimiya N |
| 431 - 438 |
Effect of microstructure change on the deuterium permeation properties of erbium oxide coatings prepared via MOCVD
Wu YY, He D, Li S, Yang Y, Liu XP, Wang SM, Jiang LJ |
| 439 - 446 |
Monodisperse CoAgPd, nanoparticles assembled on graphene for efficient hydrogen generation from formic acid at room temperature
Yang L, Luo W, Cheng GZ |
| 447 - 475 |
Optimal design and operation of integrated wind-hydrogen-electricity networks for decarbonising the domestic transport sector in Great Britain
Samsatli S, Staffell I, Samsatli NJ |
| 476 - 482 |
Effect of casting solvent on the characteristics of Nafion/TiO2 nanocomposite membranes for microbial fuel cell application
Bajestani MB, Mousavi SA |
| 483 - 496 |
Perfluorosulfonic acid membrane degradation in the hydrogen inlet region: A macroscopic approach
De Moor G, Bas C, Charvin N, Dillet J, Maranzana G, Lottin O, Caque N, Rossinot E, Flandin L |
| 497 - 504 |
The surface coverage of PEM fuel cell electrodes
Dundar F, Pilenga A, Tsotridis G |
| 505 - 515 |
An optical and single cell study of the assembly of a PEMFC with dry and expanded Nafion
Folgado MA, Ferreira-Aparicio P, Chaparro AM |
| 516 - 523 |
Fuel cell flooding diagnosis based on time-constant spectrum analysis
Geneve T, Regnier J, Turpin C |
| 524 - 533 |
Transient behavior of proton exchange membrane fuel cells over a cobalt-phosphorous/nickel foam catalyst with sodium borohydride
Gang BG, Jung W, Kwon S |
| 534 - 542 |
Electrochemical quartz crystal microbalance study of high-rate Pt dissolution in H2O2-containing H2SO4 solution with Fe2+ ion
Itaya H, Shironita S, Nakazawa A, Inoue M, Umeda M |
| 543 - 552 |
Characterization of membrane biofouling and its effect on the performance of microbial fuel cell
Miskan M, Ismail M, Ghasemi M, Jahim JM, Nordin D, Abu Bakar MH |
| 553 - 561 |
Methane internal reforming in solid oxide fuel cells with anode off-gas recirculation
Tsai TI, Troskialina L, Majewski A, Steinberger-Wilckens R |
| 562 - 569 |
Mechanical properties of porous ITM alloy
Vasechko V, Pecanac G, Kuhn B, Malzbender J |
| 570 - 596 |
The corrosion protection study on inner surface from welding of aluminum alloy 7075-T6 hydrogen storage bottle
Wu SD, Cheng WY, Yang JHC, Yang CH, Liao SY |
| 597 - 606 |
Effect of separator electrode assembly (SEA) design and mode of operation on the performance of continuous tubular microbial fuel cells (MFCs)
Yousefi V, Mohebbi-Kalhori D, Samimi A, Salari M |
| 607 - 613 |
Technical study of a PEM fuel cell on the Psychrometric chart
Mahmoudimehr J, Darbandi A |
| 614 - 631 |
Interactions of vortices, thermal effects and cavitation in liquid hydrogen cavitating flows
Zhu JK, Zhao DF, Xu L, Zhang XB |
| 632 - 646 |
Computing supersonic non-premixed turbulent combustion by an SMLD flamelet progress variable model
Coclite A, Cutrone L, Gurtner M, De Palma P, Haidn OJ, Pascazio G |
| 647 - 655 |
Numerical study on combustion and emission in a DISI methanol engine with hydrogen addition
Gong CM, Li D, Li ZH, Liu FH |
| 656 - 665 |
Effect of hydrogen enrichment on combustion characteristics, emissions and performance of a diesel engine
Karagoz Y, Guler I, Sandalci T, Yuksek L, Dalkilic AS |
| 666 - 674 |
Effects of MBT spark timing on performance emission and combustion characteristics of S.I engine using hydrogen-CNG blends
Nitnaware PT, Suryawanshi JG |
| 675 - 682 |
Effect of laser pulse energy on laser ignition of port fuel injected hydrogen engine
Pal A, Agarwal AK |
| 683 - 689 |
Control of an air siphon nozzle using hydrogen and gases other than air
Seibert ML, Nieh S |
| 690 - 703 |
Numerical simulation on ignition transients of hydrogen flame in a supersonic combustor with dual-cavity
Yang YX, Wang ZG, Sun MB, Wang HB |
| 704 - 712 |
Effect of hydrogen on the hardness of different phases in super duplex stainless steel
Kheradmand N, Johnsen R, Olsen JS, Barnoush A |
| 713 - 721 |
Dual fuel mode DI diesel engine combustion with hydrogen gas and DEE as ignition source
Dhanasekaran C, Mohankumar G |
| 725 - 727 |
System simulation and exergy analysis on the use of biomass-derived liquid-hydrogen for SOFC/GT powered aircraft (vol 40, pg 4683, 2015)
Fernandes A, Woudstra T, Aravind PV |
| 728 - 728 |
Platinum/manganese oxide nanocomposites as water-oxidizing catalysts: New findings and current controversies (vol 40, pg 10825, 2015)
Najafpour MM, Hosseini SM, Holynska M, Tomo T, Allakhverdiev SI |
| 729 - 732 |
Pressurized PEM water electrolysis: Efficiency and gas crossover (vol 38, 14921, 2013)
Schalenbach M |
