| 573 - 614 |
Commercializable power source from forming new states of hydrogen
Mills RL, Zhao G, Akhtar K, Chang Z, He J, Lu Y, Good W, Chu G, Dhandapani B |
| 615 - 627 |
The future of hydrogen - opportunities and challenges
Ball M, Wietschel M |
| 628 - 641 |
Demonstration of a novel assessment methodology for hydrogen infrastructure deployment
Stephens-Romero S, Samuelsen GS |
| 642 - 657 |
Soft-linking energy systems and GIS models to investigate spatial hydrogen infrastructure development in a low-carbon UK energy system
Strachan N, Balta-Ozkan N, Joffe D, McGeevor K, Hughes N |
| 658 - 664 |
Linear sweep voltametry studies on oxygen reduction of some oxides in alkaline electrolytes
Ananth MV, Giridhar VV, Renuga K |
| 665 - 671 |
Co-electrodeposition of Pt-Ru electrocatalysts in electrolytes with varying compositions by a double-potential pulse method for the oxidation of MeOH and CO
Jow JJ, Yang SW, Chen HR, Wu MS, Ling TR, Wei TY |
| 672 - 677 |
High rate membrane-less microbial electrolysis cell for continuous hydrogen production
Tartakovsky B, Manuel MF, Wang H, Guiot SR |
| 678 - 684 |
Investigations on high performance proton exchange membrane water electrolyzer
Ma LR, Sui S, Zhai YC |
| 685 - 693 |
Deposition and electrochemical activity of Pt-based bimetallic nanocatalysts on carbon nanotube electrodes
Hsieh CT, Lin JY, Wei JL |
| 694 - 702 |
Characterization of composite materials of electroconductive polymer and cobalt as electrocatalysts for the oxygen reduction reaction
Millan WM, Thompson TT, Arriaga LG, Smit MA |
| 703 - 709 |
Electrocatalytic activation of Ni electrode for hydrogen production by electrodeposition of Co and V species
Kaninski MPM, Nikolic VM, Tasic GS, Rakocevic ZL |
| 710 - 720 |
Solar decomposition of fossil fuels as an option for sustainability
Ozalp N, Kogan A, Epstein M |
| 721 - 726 |
The effect of Ni2+, Fe2+ and Mg2+ concentration on photo-hydrogen production by Rhodopseudomonas faecalis RLD-53
Liu BF, Ren NQ, Ding J, Xie GJ, Guo WQ |
| 727 - 736 |
Estimating global hydrogen production from wind
Honnery D, Moriarty P |
| 737 - 744 |
Global warming potential of the sulfur-iodine process using life cycle assessment methodology
Lattin WC, Utgikar VP |
| 745 - 752 |
Immobilization of calcium oxide solid reactant on a yttria fabric and thermodynamic analysis of UT-3 thermochemical hydrogen production cycle
Lee MS, Goswami DY, Stefanakos EK |
| 753 - 763 |
Experimental kinetics and dynamics of hydrogen production on glucose by hydrogen forming bacteria (HFB) culture
Ruggeri B, Tommasi T, Sassi G |
| 764 - 771 |
Biohydrogen production by Clostridium butyricum EB6 from palm oil mill effluent
Chong ML, Rahim RA, Shirai Y, Hassan MA |
| 772 - 782 |
A study of combined biomass gasification and electrolysis for hydrogen production
Hulteberg PC, Karlsson HT |
| 783 - 790 |
Anaerobic fluidized bed reactor with expanded clay as support for hydrogen production through dark fermentation of glucose
de Amorim ELC, Barros AR, Damianouic MHRZ, Silva EL |
| 791 - 798 |
Biochemical kinetics of fermentative hydrogen production by Clostridium butyricum W5
Wang X, Monis PT, Saint CP, Jin B |
| 799 - 811 |
Factors influencing fermentative hydrogen production: A review
Wang JL, Wan W |
| 812 - 820 |
Hydrogen production characteristics of the organic fraction of municipal solid wastes by anaerobic mixed culture fermentation
Dong L, Zhenhong Y, Yonyming S, Xiaoying K, Yu Z |
| 821 - 826 |
Dark and acidic conditions for fermentative hydrogen production
Gadhamshetty V, Johnson DC, Nirmalakhandan N, Smith GB, Deng SG |
| 827 - 832 |
Hydrogen production by thermal partial oxidation of hydrocarbon fuels in porous media based reformer
Al-Hamamre Z, Voss S, Trimis D |
| 833 - 838 |
Production of hydrogen and nano carbon powders from direct plasmalysis of methane
Tsai CH, Chen KT |
| 839 - 843 |
Combination of CO2 reforming and partial oxidation of methane to produce syngas over Ni/SiO2 and Ni-Al2O3/SiO2 catalysts with different precursors
He SF, Wu HM, Yu WJ, Mo LY, Lou H, Zheng XM |
| 844 - 858 |
Investigation of a novel porous anodic alumina plate for methane steam reforming: Hydrothermal stability, electrical heating possibility and reforming reactivity
Zhou L, Guo Y, Yagi M, Sakurai M, Kameyama H |
| 859 - 869 |
Electrochemical impedance studies of methanol oxidation on GC/Ni and GC/NiCu electrode
Danaee I, Jafarian M, Forouzandeh F, Gobal F, Mahjani MG |
| 870 - 876 |
Study of activity and effectiveness factor of noble metal catalysts for water-gas shift reaction
Lim S, Bae J, Kim K |
| 877 - 887 |
Implications of sensor location in steam reformer temperature control
Vernon DR, Erickson PA, Liao CH, Hsu J, Tang HY |
| 888 - 896 |
Hydrogen sorption in transition metal modified ETS-10
Prasanth KP, Bajaj HC, Chung HD, Choo KY, Kim TH, Jasra RV |
| 897 - 905 |
Optimization of hydrogen storage in metal-hydride tanks
Askri F, Salah MB, Jemni A, Ben Nasrallah S |
| 906 - 912 |
Direct synthesis of Mg(AlH4)(2) and CaAlH5 crystalline compounds by ball milling and their potential as hydrogen storage materials
Iosub V, Matsunaga T, Tange K, Ishikiriyama M |
| 913 - 915 |
Hydrogenation behaviour of La0.5R0.5Ni4.8Al0.1Li0.1 (R = La, Ce, Pr or Nd) alloys
Giza K, Iwasieczko W, Bala H, Pavlyuk VV, Drulis H |
| 916 - 928 |
Magnesium borohydride as a hydrogen storage material: Properties and dehydrogenation pathway of unsolvated Mg(BH4)(2)
Soloveichik GL, Gao Y, Rijssenbeek J, Andrus M, Kniajanski S, Bowman RC, Hwan SJ, Zhao JC |
| 929 - 937 |
Hydrogen production from solid sodium borohydride
Gislon P, Monteleone G, Prosini PP |
| 938 - 951 |
A multifactor study of catalyzed hydrolysis of solid NaBH4 on cobalt nanoparticles: Thermodynamics and kinetics
Andrieux J, Swierczynski D, Laversenne L, Garron A, Bennici S, Goutaudier C, Miele P, Auroux A, Bonnetot B |
| 952 - 960 |
X-ray diffraction and H-storage in ultra-small palladium particles
Narehood DG, Kishore S, Goto H, Adair JH, Nelson JA, Gutierrez HR, Eklund PC |
| 961 - 966 |
Hydrogen storage of nanostructured TiO2-impregnated carbon nanotubes
Rather SU, Mehraj-Ud-Din N, Zacharia R, Hwang SW, Kim AR, Nahm KS |
| 967 - 980 |
Design of experiment techniques for fuel cell characterisation and development
Wahdame B, Candusso D, Francois X, Harel F, Kauffmann JM, Coquery G |
| 981 - 989 |
Parameter identification for proton exchange membrane fuel cell model using particle swarm optimization
Ye MY, Wang XD, Xu YS |
| 990 - 997 |
Effect of dimensional error of metallic bipolar plate on the GDL pressure distribution in the PEM fuel cell
Liu DA, Peny LF, Lai XM |
| 998 - 1007 |
Separation of hydrogen from hydrogen/ethylene mixtures using PEM fuel cell technology
Doucet R, Gardner CL, Ternan M |
| 1008 - 1014 |
Oxygen reduction mechanism at Ba0.5Sr0.5Co0.8Fe0.2O3-delta cathode for solid oxide fuel cell
Liu BW, Zhang Y, Zhang LM |
| 1015 - 1025 |
Potentials of NOX emission reduction methods in SI hydrogen engines: Simulation study
Safari H, Jazayeri SA, Ebrahimi R |
| 1026 - 1034 |
Investigation of combustion characteristics and emissions in a spark-ignition engine fuelled with natural gas-hydrogen blends
Kahraman N, Ceper B, Akansu SO, Aydin K |
| 1035 - 1044 |
Experimental study on combustion characteristics of a spark-ignition engine fueled with natural gas-hydrogen blends combining with EGR
Hu EJ, Huang ZH, Liu B, Zheng JJ, Gu XL |
| 1045 - 1053 |
Combustion characteristics of a lean premixed LPG-air combustor
Kim HS, Arghode VK, Gupta AK |
| 1054 - 1062 |
Hydrogen addition effects in a confined swirl-stabilized methane-air flame
Kim HS, Arghode VK, Linck MB, Gupta AK |
| 1063 - 1073 |
Flame characteristics of hydrogen-enriched methane-air premixed swirling flames
Kim HS, Arghode VK, Gupta AK |
| 1074 - 1083 |
Analysis of entropy generation in hydrogen-enriched methane-air propagating triple flames
Briones AM, Mukhopadhyay A, Aggarwal SK |
| 1084 - 1096 |
Numerical study of the effect of hydrogen addition on methane-air mixtures combustion
Wang JH, Huang ZH, Tang CL, Miao HY, Wang XB |
| 1097 - 1107 |
Hydrogen transport in solution-treated and pre-strained austenitic stainless steels and its role in hydrogen-enhanced fatigue crack growth
Mine Y, Narazaki C, Murakami K, Matsuoka S, Murakami Y |
| 1108 - 1113 |
Effect of hydrogen on diffusion bonding of commercially pure titanium and hydrogenated Ti6Al4V alloys
Liu H, Cao J, He P, Feng JC |
| 1114 - 1118 |
Study of single-metal multi-nanometer electrodeposition chromium layer
Feng H, Zhang Y, Wei YL, Shao C, Feng S, Chen JM, Wu XB |
| 1119 - 1122 |
UV-light irradiation induced copper nanoclusters in a silicate glass
Sheng JW, Chen S, Zhang J, Li J, Yu J |
| 1123 - 1125 |
UV-laser irradiation on the soda-lime silicate glass
Sheng JW, Wu YF, Yang XJ, Zhang J |
| 1126 - 1134 |
A comparison of environmental benefits of transport and electricity applications of carbohydrate derived ethanol and hydrogen
Melamu R, von Blottnitz H |
| 1135 - 1141 |
Risk assessment for liquid hydrogen fueling stations
Kikukawa S, Mitsuhashi H, Miyake A |
