| 647 - 653 |
Hydrogen recovery, cleaning, compression, storage, dispensing, distribution system and End-Uses on the university campus from combined heat, hydrogen and power system
Hamad TA, Agll AA, Hamad YM, Bapat S, Thomas M, Martin KB, Sheffield JW |
| 654 - 663 |
Recovery of flakey cobalt from aqueous Co(II) with simultaneous hydrogen production in microbial electrolysis cells
Jiang LJ, Huang LP, Sun YL |
| 664 - 674 |
Fluorine doped (Ir,Sn,Nb)O-2 anode electro-catalyst for oxygen evolution via PEM based water electrolysis
Kadakia K, Datta MK, Velikokhatnyi OI, Jampani PH, Kumta PN |
| 675 - 683 |
Steam electrolysis with simultaneous production of C-2 hydrocarbons in a solid electrolyte cell
Kyriakou V, Garagounis I, Stoukides M |
| 684 - 691 |
Effect of Ti on the microstructure and Al-water reactivity of Al-rich alloy
He TT, Wang W, Chen DM, Yang K |
| 692 - 701 |
Phase separation characteristics of the Bunsen reaction when using HIx solution (HI-I-2-H2O) in the sulfur-iodine hydrogen production process
Kim HS, Kim YH, Ahn BT, Lee JG, Park CS, Bae KK |
| 702 - 710 |
In-situ photo-reducing graphene oxide to create Zn0.5Cd0.5S porous nanosheets/RGO composites as highly stable and efficient photoelectrocatalysts for visible-light-driven water splitting
Zhang J, Zhao WT, Xu Y, Xu HL, Zhang B |
| 711 - 717 |
Self-doped Ti3+@TiO2 visible light photocatalyst: Influence of synthetic parameters on the H-2 production activity
Zuo F, Wang L, Feng PY |
| 718 - 730 |
Thermal and chemical reaction performance analyses of steam methane reforming in porous media solar thermochemical reactor
Wang FQ, Shuai Y, Wang ZQ, Leng Y, Tan HP |
| 731 - 735 |
Photocatalytic overall water splitting under visible light over an In-Ni-Ta-O-N solid solution without an additional cocatalyst
Li Y, Jiang SH, Xiao JR, Li YD |
| 736 - 743 |
Effect of different substrate concentrations and salinity on hydrogen production from mariculture organic waste (MOW)
Guo L, Zong Y, Lu MM, Zhang JW |
| 744 - 750 |
Distributed production of hydrogen by auto-thermal reforming of fast pyrolysis bio-oil
Czernik S, French R |
| 751 - 760 |
Statistical optimization of medium components affecting simultaneous fermentative hydrogen and ethanol production from crude glycerol by thermotolerant Klebsiella sp. TR17
Chookaew T, O-Thong S, Prasertsan P |
| 761 - 769 |
Methanol steam reforming integrated with oxidation in a conical annulus micro-reactor
Amiri EO, Hormozi F, Khoshandam B |
| 770 - 777 |
Methanol opportunities for electricity and hydrogen production in bioelectrochemical systems
Montpart N, Ribot-Llobet E, Garlapati VK, Rago L, Baeza JA, Guisasola A |
| 778 - 787 |
Effect of Pr addition on the properties of Ni/Al2O3 catalysts with an application in the autothermal reforming of methane
Wang Y, Peng J, Zhou C, Lim ZY, Wu CZ, Ye S, Wang WG |
| 788 - 797 |
The effect of reduction of pretreated NiO-ZnO catalysts on the water-gas shift reaction for hydrogen production as studied by in situ DRIFTS/MS
Tang CW, Chuang SSC |
| 798 - 807 |
Enhanced activity of Pt nanoparticle catalysts supported on manganese oxide-carbon nanotubes for ethanol oxidation
Cai JD, Huang YY, Huang BB, Zheng SY, Guo YL |
| 808 - 814 |
Ammonia decomposition over commercial Ru/Al2O3 catalyst: An experimental evaluation at different operative pressures and temperatures
Di Carlo A, Vecchione L, Del Prete Z |
| 815 - 828 |
The effect of metal content on nickel-based catalysts obtained from hydrotalcites for WGSR in one step
Fuentes EM, Aires FJCS, Prakash S, Faro AD, Silua TD, Assaf JM, Rangel MD |
| 829 - 836 |
nPt(0) (Hx-2nMoO3) as a promising catalyst for the oxidation of methanol. Synthesis and electrocatalytic properties
Kusnetsov VV, Podlouchenko BI, Shakurov RI, Kavyrshina KV, Lyahenko SE |
| 837 - 843 |
Pd/C nanocatalyst with high turnover frequency for hydrogen generation from the formic acid-formate mixtures
Wang X, Qi GW, Tan CH, Li YP, Guo J, Pang XJ, Zhang SY |
| 844 - 852 |
Simulation of exhaust gas reforming of propane in a heat exchange integrated microchannel reactor
Sen I, Avci AK |
| 853 - 861 |
Screen channel LAD bubble point tests in liquid hydrogen
Hartwig J, Chato D, McQuillen J |
| 862 - 867 |
Investigation of surface and near-surface effects on hydrogen desorption kinetics of MgH2
Kurko S, Milanovic I, Novakovic JG, Ivanovic N, Novakovic N |
| 868 - 876 |
Crystal structure solution of KMg(ND)(ND2): An ordered mixed amide/imide compound
Napolitano E, Dolci F, Campesi R, Pistidda C, Hoelzel M, Moretto P, Enzo S |
| 877 - 883 |
Effects of F and Cl on the stability of MgH2
Wang JC, Du Y, Sun LX, Li XH |
| 884 - 889 |
Gas and vapor adsorption in octacyanometallate-based frameworks Mn-2[M(CN)(8)] (M = W, Mo) with exposed Mn2+ sites
Yuan AH, Zhou H, Diao GW, Southon PD, Kepert CJ, Liu L |
| 890 - 895 |
Modulated synthesis of zirconium-metal organic framework (Zr-MOF) for hydrogen storage applications
Ren JW, Langmi HW, North BC, Mathe M, Bessarabov D |
| 896 - 904 |
Superior dehydrogenation performance of nanoscale lithium borohydride modified with fluorographite
Zhang LT, Chen LX, Xiao XZ, Chen ZW, Wang SK, Fan XL, Li SQ, Ge HW, Wang QD |
| 905 - 916 |
Preparation and catalytic activity of PVP-protected Au/Ni bimetallic nanoparticles for hydrogen generation from hydrolysis of basic NaBH4 solution
Wang XF, Sun SR, Huang ZL, Zhang HJ, Zhang SW |
| 917 - 926 |
A synergistic effect between nanoconfinement of carbon aerogels and catalysis of CoNiB nanoparticles on dehydrogenation of LiBH4
Zhao YP, Jiao LF, Liu YC, Guo LJ, Li L, Liu HQ, Wang YJ, Yuan HT |
| 927 - 933 |
Catalytic effect of MWCNTs on the dehydrogenation behavior of LiAlH4
Hsu WC, Yang CH, Tsai WT |
| 934 - 941 |
Effects of structures of pyrolyzed corrin, corrole and porphyrin on oxygen reduction reaction
Chang ST, Huang HC, Wang HC, Hsu HC, Lee JF, Wang CH |
| 942 - 950 |
Numerical modeling of liquid water motion in a polymer electrolyte fuel cell
Jiang FM, Wang CY |
| 951 - 957 |
Carbon-polymer composite coatings for PEM fuel cell bipolar plates
Husby H, Kongstein OA, Oedegaard A, Seland F |
| 958 - 965 |
Mass transfer characteristics of the hydrophilic membrane with the isolation of heat transfer effect by isothermal bath
Tak H, Yun J, Han J, Yu S |
| 966 - 973 |
Hybrid electrode effects on polymer electrolyte membrane fuel cells
Jung J, Kwon M, Kim HR, Kim J |
| 974 - 986 |
Enhancement of proton conductivity of polymer electrolyte membrane enabled by sulfonated nanotubes
Zhang HQ, Ma CM, Wang JT, Wang XY, Bai HJ, Liu JD |
| 987 - 995 |
Contact resistance between bipolar plate and gas diffusion layer in high temperature polymer electrolyte fuel cells
Singdeo D, Dey T, Ghosh PC |
| 996 - 1004 |
Evaluation of Ni80Cr20/(La0.75Sr0.25)(0.95)MnO3 dual layer coating on SUS 430 stainless steel used as metallic interconnect for solid oxide fuel cells
Wu W, Guan WB, Wang GL, Liu W, Zhang QS, Chen T, Wang WG |
| 1005 - 1013 |
Nonstoichiometric (La0.95Sr0.05)(x)Ga0.9Mg0.1O3-delta electrolytes and Ce0.8Nd0.2O1.9-(La0.95Sr0.05)(x)Ga0.9Mg0.1O3-delta composite electrolytes for solid oxide fuel cells
Wang XP, Zhou DF, Yang GC, Sun SC, Li ZH, Fu H, Meng J |
| 1014 - 1022 |
Fabrication and characterization of anode-supported single chamber solid oxide fuel cell based on La0.6Sr0.4Co0.2Fe0.8O3-delta-Ce0.9Gd0.1O1.95 composite cathode
Sun LP, Rieu M, Viricelle JP, Pijolat C, Zhao H |
| 1023 - 1029 |
Effect of ionic size of dopants on the lattice structure, electrical and electrochemical properties of La2-xMxNiO4+delta (M = Ba, Sr) cathode materials
Shen YN, Zhao HL, Xu JC, Zhang XX, Zheng K, Swierczek K |
| 1030 - 1038 |
Cobalt-free Sr0.7Y0.3CuO2+delta as a cathode for intermediate-temperature solid oxide fuel cell
Ding XF, Gao XJ, Shen JY, Wang J, Zhu WL, Wang X, Jiang JG |
| 1039 - 1055 |
Mass transfer and performance of membrane-less micro fuel cell: A review
Nasharudin MN, Kamarudin SK, Hasran UA, Masdar MS |
| 1056 - 1062 |
Influence of biomass addition on electricity harvesting from solid phase microbial fuel cells
Song TS, Wang DB, Han S, Wu XY, Zhou CC |
| 1063 - 1070 |
Sulfonated mesoporous benzene-silica-embedded sulfonated poly(ether ether ketone) membranes for enhanced proton conduction and anti-dehydration
Park J, Kim D |
| 1071 - 1085 |
Recent progress in the use of hydrogen as a fuel for internal combustion engines
Verhelst S |
| 1086 - 1095 |
Comparison of the effects of EGR and lean burn on an SI engine fueled by hydrogen-enriched low calorific gas
Lee S, Park C, Park S, Kim C |
| 1096 - 1104 |
Modeling study on the production of hydrogen/syngas via partial oxidation using a homogeneous charge compression ignition engine fueled with natural gas
Morsy MH |
| 1105 - 1121 |
A review on the laminar flame speed and ignition delay time of Syngas mixtures
Lee HC, Jiang LY, Mohamad AA |
| 1122 - 1136 |
Modeling and simulation of hydrogen combustion in engines
Smirnov NN, Nikitin VF |
| 1137 - 1144 |
A comparison of the heat transfer behaviors of biogas-H-2 diffusion and premixed flames
Zhen HS, Leung CW, Cheung CS |
| 1145 - 1155 |
Computational analysis of geometrical factors affecting experimental data extracted from hydrogen permeation tests: III - Comparison with experimental results from the literature
Legrand E, Oudriss A, Frappart S, Creus J, Feaugas X, Bouhattate J |
| 1156 - 1163 |
FE simulation of hydrogen diffusion in duplex stainless steel
Olden V, Saai A, Jemblie L, Johnsen R |
| 1164 - 1172 |
Highly sensitive secondary ion mass spectrometric analysis of time variation of hydrogen spatial distribution in austenitic stainless steel at room temperature in vacuum
Awane T, Fukushima Y, Matsuo T, Murakami Y, Miwa S |
| 1173 - 1184 |
Catalysis and evolution on cycling of nano-structured magnesium multilayer thin films
Fry CMP, Grant DM, Walker GS |
| 1185 - 1191 |
Hydrogen sensing characteristics of nano-crystalline Mg0.5Zn0.5Fe2O4 thin film: Effect of film thickness and operating temperature
Mukherjee K, Majumder SB |
