| 2071 - 2080 |
Life cycle assessment of various hydrogen production methods
Cetinkaya E, Dincer I, Naterer GF |
| 2081 - 2093 |
Modeling and optimization of an energy generation island based on renewable technologies and hydrogen storage systems
Carapellucci R, Giordano L |
| 2094 - 2102 |
Investigation of water gas-shift activity of Pt-MOx-CeO2/Al2O3 (M = K, Ni, Co) using modular artificial neural networks
Gunay ME, Akpinar F, Onsan ZI, Yildirim R |
| 2103 - 2110 |
Optimization of the Pd-Sn-GNS nanocomposite for enhanced electrooxidation of methanol
Awasthi R, Singh RN |
| 2111 - 2120 |
Improved thermal stability, properties, and electrocatalytic activity of sol-gel silica modified carbon supported Pt catalysts
Pinchuk OA, Dundar F, Ata A, Wynne KJ |
| 2121 - 2128 |
Syn-gas generation in the absence of oxygen and isotopic exchange reactions over Rh & Pt/doped-ceria catalysts
Salazar-Villalpando MD |
| 2129 - 2136 |
In-situ investigation on the CO tolerance of carbon supported Pd-Pt electrocatalysts with low Pt content by electrochemical impedance spectroscopy
Tang YF, Zhang HM, Zhong HX, Xu Z |
| 2137 - 2146 |
Highly improved electrooxidation of formaldehyde on nickel/poly (o-toluidine)/Triton X-100 film modified carbon nanotube paste electrode
Raoof JB, Ojani R, Abdi S, Hosseini SR |
| 2147 - 2156 |
Double-template fabrication of three-dimensional porous nickel electrodes for hydrogen evolution reaction
Herraiz-Cardona I, Ortega E, Vazquez-Gomez L, Perez-Herranz V |
| 2157 - 2165 |
A comparative study of electrochemical performance of La0.5Ba0.5CoO3-delta and La0.5Ba0.5CoO3-delta-Gd0.1Ce0.9O1.95 cathodes
Pang SL, Jiang XN, Li XN, Wang Q, Su ZX |
| 2166 - 2172 |
RuO2 nanorod coated cathode for the electrolysis of water
Cross M, Varhue W, Pelletier K, Stewart M |
| 2173 - 2181 |
Tantalum carbide as a novel support material for anode electrocatalysts in polymer electrolyte membrane water electrolysers
Polonsky J, Petrushina IM, Christensen E, Bouzek K, Prag CB, Andersen JET, Bjerrum NJ |
| 2182 - 2186 |
Enhancing oxygen surface exchange coefficients of strontium-doped lanthanum manganates with electrolytes
Wang Y, Zhang L, Xia CR |
| 2187 - 2194 |
Insight into the reactivity of Al-Ga-In-Sn alloy with water
Wang W, Zhao XM, Chen DM, Yang K |
| 2195 - 2203 |
Experimental quantification and modelling of reaction zones in a cyclic watergas shift reactor
Hertel C, Heidebrecht P, Sundmacher K |
| 2204 - 2209 |
Production of hydrogen from hydrogen sulfide assisted by dielectric barrier discharge
Reddy EL, Biju VM, Subrahmanyam C |
| 2210 - 2223 |
Dynamic model of a solar thermochemical water-splitting reactor with integrated energy collection and storage
Xu R, Wiesner TF |
| 2224 - 2230 |
TiO2-graphene nanocomposites for photocatalytic hydrogen production from splitting water
Cheng P, Yang Z, Wang H, Cheng W, Chen MX, Shangguan WF, Ding GF |
| 2231 - 2238 |
Bio-hydrogen production enhancement by co-cultivating Rhodopseudomonas palustris WP3-5 and Anabaena sp CH3
Wu SC, Lu PF, Lin YC, Chen PC, Lee CM |
| 2239 - 2247 |
Rapid detection and quantification methodology for genus Megasphaera as a hydrogen producer in a hydrogen fermentation system
Ohnishi A, Abe S, Banclo Y, Fujimoto N, Suzuki M |
| 2248 - 2259 |
Reactions of different food classes during subcritical water gasification for hydrogen gas production
Muangrat R, Onwudili JA, Williams PT |
| 2260 - 2266 |
Hydrogen gas production from cheese whey powder (CWP) solution by thermophilic dark fermentation
Kargi F, Eren NS, Ozmihci S |
| 2267 - 2272 |
Modeling and simulation of net energy gain by dark fermentation
Perera KRJ, Arudchelvam Y, Gadhamshetty V, Nirmalakhandan N |
| 2273 - 2277 |
Near stoichiometric reforming of biodiesel derived crude glycerol to hydrogen by photofermentation
Ghosh D, Tourigny A, Hallenbeck PC |
| 2278 - 2286 |
Gasification of two and three-components mixture in supercritical water: Influence of NaOH and initial reactants of acetic acid and phenol
Guo Y, Wang SZ, Wang YZ, Zhang J, Xu DH, Gong YM |
| 2287 - 2297 |
Integrated methanol reforming and oxidation in wash-coated microreactors: A three-dimensional simulation
Tadbir MA, Akbari MH |
| 2298 - 2303 |
Enhancement of hydrogen storage by electrophoresis deposition of CNTs into nanoscale pores of silver foams
Khoshnevisan B, Behpour M, Shoaei S |
| 2304 - 2319 |
Development of a hydrogen catalytic heater for heating metal hydride hydrogen storage systems
Johnson TA, Kanouff MP |
| 2320 - 2327 |
High-rate discharge characteristics of metal hydride modified by electroless nickel plating based on experimental design approach
Lin SH, Wu WT, Do JS |
| 2328 - 2335 |
Hydrogen absorption properties of Zr(V1-xFex)(2) intermetallic compounds
Zhang TB, Wang XF, Hu R, Li JS, Yang XW, Xue XY, Fu HZ |
| 2336 - 2343 |
Cu(OH)(2) and CuO nanotube networks from hexaoxacyclooctadecane-like posnjakite microplates: Synthesis and electrochemical hydrogen storage
Sun YZ, Ma L, Zhou BB, Gao P |
| 2344 - 2352 |
Discharge dynamics of coupled fuel cell and metal hydride hydrogen storage bed for small wind hybrid systems
Khaitan SK, Raju M |
| 2353 - 2369 |
Evaluation of modeling techniques for a type III hydrogen pressure vessel (70 MPa) made of an aluminum liner and a thick carbon/epoxy composite for fuel cell vehicles
Son DS, Chang SH |
| 2370 - 2381 |
MOF-5 and activated carbons as adsorbents for gas storage
Marco-Lozar JP, Juan-Juan J, Suarez-Garcia F, Cazorla-Amoros D, Linares-Solano A |
| 2382 - 2387 |
Microstructural study of hydrogen desorption in 2NaBH(4) + MgH2 reactive hydride composite
Nwakwuo CC, Pistidda C, Dornheim M, Hutchison JL, Sykes JM |
| 2388 - 2396 |
Alanate-borohydride material systems for hydrogen storage applications
Mohtadi R, Sivasubramanian P, Hwang SJ, Stowe A, Gray J, Matsunaga T, Zidan R |
| 2397 - 2406 |
Dehydrogenation of Ammonia Borane with transition metal-doped Co-B alloy catalysts
Fernandes R, Patel N, Miotello A, Jaiswal R, Kothari DC |
| 2407 - 2411 |
High and rapid hydrogen release from thermolysis of ammonia borane near PEM fuel cell operating temperatures
Hwang HT, Al-Kukhun A, Varma A |
| 2412 - 2429 |
A critical review of cooling techniques in proton exchange membrane fuel cell stacks
Zhang GS, Kandlikar SG |
| 2430 - 2439 |
3D modeling of a 200 cm(2) HT-PEFC short stack
Kvesic M, Reimer U, Froning D, Luke L, Lehnert W, Stolten D |
| 2440 - 2446 |
Fully-integrated micro PEM fuel cell system with NaBH4 hydrogen generator
Kim T |
| 2447 - 2454 |
Kinetics and electrocatalytic activity of IrCo/C catalysts for oxygen reduction reaction in PEMFC
Yang DJ, Li B, Zhang H, Ma JX |
| 2455 - 2461 |
The inhibition of electrochemical carbon corrosion in polymer electrolyte membrane fuel cells using iridium nanodendrites
Oh JG, Lee WH, Kim H |
| 2462 - 2469 |
Experimental study of water transport in a polybenzimidazole-based high temperature PEMFC
Galbiati S, Baricci A, Casalegno A, Marchesi R |
| 2470 - 2481 |
Modeling and optimization of a 1 kW(e) HT-PEMFC-based micro-CHP residential system
Arsalis A, Nielsen MP, Kaer SK |
| 2482 - 2489 |
Convergence criteria establishment for 3D simulation of proton exchange membrane fuel cell
Arvay A, Ahmed A, Peng XH, Kannan AM |
| 2490 - 2497 |
The dependence of performance degradation of membrane electrode assembly on platinum loading in polymer electrolyte membrane fuel cell
Cho YH, Lim JW, Kang YS, Cho YH, Kim OH, Kwon NH, Kwon OJ, Yoon WS, Choe H, Sung YE |
| 2498 - 2508 |
Neural network hybrid model of a direct internal reforming solid oxide fuel cell
Chaichana K, Patcharavorachot Y, Chutichai B, Saebea D, Assabumrungrat S, Arpornwichanop A |
| 2509 - 2523 |
Energy and carbon payback times for solid oxide fuel cell based domestic CHP
Staffell I, Ingram A, Kendall K |
| 2524 - 2534 |
Engineered anode structure for enhanced electrochemical performance of anode-supported planar solid oxide fuel cell
Mukhopadhyay M, Mukhopadhyay J, Sharma AD, Basu RN |
| 2535 - 2545 |
Thermodynamic analysis of an integrated power generation system driven by solid oxide fuel cell
Wang JF, Yan ZQ, Ma SL, Dai YP |
| 2546 - 2551 |
SmBa0.5Sr0.5Cu2O5+delta and SmBa0.5Sr0.5CuFeO5+(delta) layered perovskite oxides as cathodes for IT-SOFCs
Ding XF, Kong X, Wu HN, Zhu YH, Tang JM, Thong YJ |
| 2552 - 2558 |
Electrochemical performance of La2Cu1-xCoxO4 cathode materials for intermediate-temperature SOFCs
Li Q, Zeng X, Sun LP, Zhao H, Huo LH, Grenier JC |
| 2559 - 2570 |
Analysis of Pt/C electrode performance in a flowing-electrolyte alkaline fuel cell
Brushett FR, Naughton MS, Ng JWD, Yin LL, Kenis PJA |
| 2571 - 2578 |
Performance of air-breathing direct methanol fuel cell with Au-coated aluminum current collectors
Yuan ZY, Zhang YF, Leng JX, Zhao YR, Liu XW |
| 2579 - 2587 |
Novel Raney-like nanoporous Pd catalyst with superior electrocatalytic activity towards ethanol electro-oxidation
Wang XG, Wang WM, Qi Z, Zhao CC, Ji H, Zhang ZH |
| 2588 - 2595 |
Direct internal reforming molten carbonate fuel cell with core-shell catalyst
Wang PJ, Zhou L, Li GL, Lin HX, Shao ZG, Zhang XF, Yi BL |
| 2596 - 2602 |
Performance of high temperature fuel cells with different types of PBI membranes as analysed by impedance spectroscopy
Kondratenko MS, Gallyamov MO, Khokhlov AR |
| 2603 - 2613 |
Crosslinked sulfonated poly(arylene ether sulfone) membranes for fuel cell application
Park JY, Kim TH, Kim HJ, Choi JH, Hong YT |
| 2614 - 2622 |
Chemical and transport behaviors in a microfluidic reformer with catalytic-support membrane for efficient hydrogen production and purification
Xuan J, Leung DYC, Leung MKH, Ni M, Wang HZ |
| 2623 - 2634 |
An extensive parametric analysis on the performance of a single-stage metal hydride heat transformer
Yang FS, Zhang ZX, Bao ZW |
| 2635 - 2643 |
Transitioning a bus transit fleet to hydrogen fuel: A case study of Knoxville Area Transit
Langford BC, Cherry C |
| 2644 - 2654 |
Numerical evaluation of internal combustion spark ignition engines performance fuelled with hydrogen - Natural gas blends
Mariani A, Morrone B, Unich A |
| 2655 - 2660 |
An experimental study of combustion characteristics of hydrogen-Air pre-mixture on the wall boundary condition
Liu XH, Fan ZQ, Liu FS, Jiu JG, Wang RW |
| 2661 - 2668 |
Density functional and bonding study of hydrogen and platinum adsorption on B2-FeTi (111) slab
Gonzalez E, Jasen P, Marchetti JM, Brizuela G, Juan A |
| 2669 - 2675 |
Effects of grain size and dislocation density on the susceptibility to high-pressure hydrogen environment embrittlement of high-strength low-alloy steels
Takasawa K, Ikeda R, Ishikawa N, Ishigaki R |
| 2676 - 2684 |
Structural stability, mechanical property and elastic anisotropy of TiAl-H system
Chen S, Liang CP, Gong HR |
| 2685 - 2698 |
A review of catalytic sulfur (VI) oxide decomposition experiments
Brown NR, Revankar ST |
| 2699 - 2707 |
Efficient catalytic abatement of greenhouse gases: Methane reforming with CO2 using a novel and thermally stable Rh-CeO2 catalyst
Djinovic P, Batista J, Pintar A |
| 2708 - 2708 |
Electrochemical activity and durability of Pt-Sn alloys on carbon-based electrodes prepared by microwave-assisted synthesis (vol 36, pg 15766, 2011)
Hsieh CT, Hsu SM, Liu YY, Chen WY, Hsieh YH |
| 2709 - 2710 |
A comment on "Prediction of crystal structure, lattice dynamical, and mechanical properties of CaB2H2" by Vajeeston et al., Int J Hydrogen Energy 36 (2011) 10149-10158 Discussion
Frankcombe TJ |
| 2711 - 2712 |
Reply to "A comment on'Prediction of crystal structure, lattice dynamical, and mechanical properties of CaB2H2' by Vajeeston et al., Int J Hydrogen Energy, 36 (2011) 10149-10158" Discussion
Vajeeston P, Ravindran P, Fjellvag H |
| 2713 - 2714 |
Preface
Anton DL, Garrison SL, Gorensek MB, Sherman SR |
| 2715 - 2722 |
Dehydrogenation kinetics and catalysis of organic heteroaromatics for hydrogen storage
Sotoodeh F, Huber BJM, Smith KJ |
| 2723 - 2727 |
Increased volumetric hydrogen uptake of MOF-5 by powder densification
Purewal JJ, Liu D, Yang J, Sudik A, Siegel DJ, Maurer S, Muller U |
| 2728 - 2736 |
Improving comparability of hydrogen storage capacities of nanoporous materials
Hruzewicz-Kolodziejczyk A, Ting VP, Bimbo N, Mays TJ |
| 2737 - 2741 |
Transition metal-decorated activated carbon catalysts for dehydrogenation of NaAlH4
Lin SSY, Yang J, Kung HH |
| 2742 - 2749 |
The effects of halide modifiers on the sorption kinetics of the Li-Mg-N-H System
Price C, Gray J, Lascola R, Anton DL |
| 2750 - 2755 |
Carbon nanostructures as catalyst for improving the hydrogen storage behavior of sodium aluminum hydride
Hudson MSL, Raghubanshi H, Pukazhselvan D, Srivastava ON |
| 2756 - 2766 |
Engineering improvement of NaAlH4 system
van Hassel BA, Mosher D, Pasini JM, Gorbounov M, Holowczak J, Tang X, Brown R, Laube B, Pryor L |
| 2767 - 2778 |
Optimization of heat exchanger designs in metal hydride based hydrogen storage systems
Raju M, Kumar S |
| 2779 - 2793 |
Systems modeling, simulation and material operating requirements for chemical hydride based hydrogen storage
Devarakonda M, Brooks K, Ronnebro E, Rassat S |
| 2794 - 2799 |
A hydrogen purification and storage system using metal hydride
Miura S, Fujisawa A, Ishida M |
| 2800 - 2806 |
Storage and separation of hydrogen with the metal steam process
Thaler M, Hacker V |
| 2807 - 2811 |
Behavior of scaled-up sodium alanate hydrogen storage tanks during sorption
von Colbe JMB, Metz O, Lozano GA, Pranzas PK, Schmitz HW, Beckmann F, Schreyer A, Klassen T, Dornheim M |
| 2812 - 2824 |
Acceptability envelope for metal hydride-based hydrogen storage systems
Corgnale C, Hardy BJ, Tamburello DA, Garrison SL, Anton DL |
| 2825 - 2834 |
Optimization of hydrogen storage tubular tanks based on light weight hydrides
Lozano GA, Ranong CN, von Colbe JMB, Bormann R, Hapke J, Fieg G, Klassen T, Dornheim M |
| 2835 - 2849 |
Model-based design of an automotive-scale, metal hydride hydrogen storage system
Johnson TA, Kanouff MP, Dedrick DE, Evans GH, Jorgensen SW |
| 2850 - 2861 |
Optimization of internal heat exchangers for hydrogen storage tanks utilizing metal hydrides
Garrison SL, Hardy BJ, Gorbounov MB, Tamburello DA, Corgnale C, vanHassel BA, Mosher DA, Anton DL |
| 2862 - 2873 |
System simulation models for on-board hydrogen storage systems
Kumar S, Raju M, Kumar VS |
| 2874 - 2884 |
System modeling methodology and analyses for materials-based hydrogen storage
Pasini JM, van Hassel BA, Mosher DA, Veenstra MJ |
| 2885 - 2890 |
Environmental reactivity of solid-state hydrogen storage systems: Fundamental testing and evaluation
James CW, Cortes-Concepcion JA, Tamburello DA, Anton DL |
| 2891 - 2910 |
On-board and Off-board performance of hydrogen storage options for light-duty vehicles
Ahluwalia RK, Hua TQ, Peng JK |
| 2911 - 2923 |
Modelling and development of photoelectrochemical reactor for H-2 production
Carver C, Ulissi Z, Ong CK, Dennison S, Kelsall GH, Hellgardt K |
| 2924 - 2934 |
Thermochemical water-splitting for H-2 generation using sol-gel derived Mn-ferrite in a packed bed reactor
Bhosale RR, Shende RV, Puszynski JA |
| 2935 - 2939 |
Quantifying potential losses of non-Pt MEAs for gas-phase HBr PEM electrolyzer to produce hydrogen
Zhang R, Wolters L, Weidner JW |
| 2940 - 2949 |
Steam reforming of ethanol over Ni/ZrO2 catalysts: Effect of support on product distribution
Li SR, Li MS, Zhang CX, Wang SP, Ma XB, Gong JL |
| 2950 - 2959 |
Hydrogen generated from hydrolysis of ammonia borane using cobalt and ruthenium based catalysts
Liu CH, Wu YC, Chou CC, Chen BH, Hsueh CL, Ku JR, Tsau FH |
| 2960 - 2964 |
Viability of ultrasonication of food waste for hydrogen production
Elbeshbishy E, Hafez H, Nakhla G |
| 2965 - 2976 |
Evolution of an [FeFe] hydrogenase with decreased oxygen sensitivity
Bingham AS, Smith PR, Swartz JR |
| 2977 - 2983 |
Generation of hydrogen from NADPH using an [FeFe] hydrogenase
Smith PR, Bingham AS, Swartz JR |
