| 2607 - 2608 |
Solar-hydrogen
Nowotny J, Sheppard LR |
| 2609 - 2629 |
Titanium dioxide for solar-hydrogen I. Functional properties
Nowotny J, Bak T, Nowotny MK, Sheppard LR |
| 2630 - 2643 |
Titanium dioxide for solar-hydrogen II. Defect chemistry
Nowotny J, Bak T, Nowotny MK, Sheppard LR |
| 2644 - 2650 |
Titanium dioxide for solar-hydrogen III: Kinetic effects at elevated temperatures
Nowotny J, Bak T, Nowotny MK, Sheppard LR |
| 2651 - 2659 |
Titanium dioxide for solar-hydrogen IV. Collective and local factors in photoreactivity
Nowotny J, Bak T, Nowotny MK, Sheppard LR |
| 2660 - 2663 |
Titanium dioxide for solar-hydrogen V. Metallic-type conduction of Nb-doped TiO2
Sheppard LR, Bak T, Nowotny J, Nowotny MK |
| 2664 - 2672 |
Heterogeneous photocatalysis: From water photolysis to applications in environmental cleanup
Fujishima A, Zhang X, Tryk DA |
| 2673 - 2678 |
Recent progress in the development of visible light-driven powdered photocatalysts for water splitting
Kudo A |
| 2679 - 2688 |
Material research challenges towards a corrosion stable photovoltaic hydrogen-generating membrane
Tributsch H, Neumann B |
| 2689 - 2692 |
Effect of Pt concentration on the production of hydrogen by a TiO2 photocatalyst
Ikuma Y, Bessho H |
| 2693 - 2702 |
Nanocrystalline structure and nanopore formation in modified thermal TiO2 films
Hepel M, Kumarihamy ID |
| 2703 - 2711 |
A comparison of PV/electrolyser and photoelectrolytic technologies for use in solar to hydrogen energy storage systems
Conibeer GJ, Richards BS |
| 2712 - 2718 |
Comparison of hydrogen storage technologies for solar-powered stand-alone power supplies: A photovoltaic system sizing approach
Richards BS, Conibeer GJ |
| 2719 - 2725 |
Application of nuclear energy for environmentally friendly hydrogen generation
Yamawaki M, Nishihara T, Inagaki Y, Minato K, Oigawa H, Onuki K, Hino R, Ogawa M |
| 2726 - 2729 |
Novel photosensitive materials for hydrogen generation through photovoltaic electricity
Yamaguchi K, Udono H |
| 2731 - 2742 |
Lifecycle impacts of natural gas to hydrogen pathways on urban air quality
Wang GH, Ogden JM, Nicholas MA |
| 2743 - 2763 |
Baseline model of a centralized pv electrolytic hydrogen system
Mason JE, Zweibel K |
| 2764 - 2775 |
Comparative simulation of falling-film and parallel-film reactors for photocatalytic production of hydrogen
Agarwal A, Bhaskarwar AN |
| 2776 - 2783 |
UV and visibly active photocatalysts for water splitting reaction
Rayalu SS, Dubey N, Labhsetwar NK, Kagne S, Devotta S |
| 2784 - 2790 |
Visible light-induced splitting of water using CdS nanocrystallites immobilized over water-repellant polymeric surface
Lunawat PS, Senapati S, Kumar R, Gupta NM |
| 2791 - 2802 |
Production of hydrogen from solar zinc in steam atmosphere
Vishnevetsky I, Epstein M |
| 2803 - 2808 |
An experimental study of hydrogen production by gasification of biomass in the presence of a CO2 sorbent
Mahishi MR, Goswami DY |
| 2809 - 2815 |
Studies on hydrogen generation characteristics of hydrolysis of the ball milling Al-based materials in pure water
Fan MQ, Xu F, Sun LX |
| 2816 - 2823 |
Hemispherical bubbles growth on electrochemically charged aluminum with hydrogen
Rozenak P |
| 2824 - 2829 |
Preparation of tungsten carbide-supported nano Platinum catalyst and its electrocatalytic activity for hydrogen evolution
Ma C, Sheng J, Brandon N, Zhang C, Li G |
| 2830 - 2835 |
Electrochemical characteristics of mechanical alloyed (Mg1-xZrx)(2)Ni (x=0-0.1) electrode alloys
Zhang YH, Zhao DL, Han XY, Li BW, Dong XP, Wang XL |
| 2836 - 2842 |
Effects of amorphous CoB on the structural and electrochemical characteristics of MgNi alloy
Feng Y, Jiao LF, Yuan HT, Zhao M |
| 2843 - 2847 |
Electrocatalytic cobalt-molybdenum alloy deposits
Subramania A, Priya ARS, Muralidharan VS |
| 2848 - 2867 |
A comparative study of non-thermal plasma assisted reforming technologies
Petitpas G, Rollier JD, Darmon A, Gonzalez-Aguilar J, Metkemeijer R, Fulcheri L |
| 2868 - 2874 |
Steam reforming of n-hexadecane using a Pd/ZrO2 catalyst: Kinetics of catalyst deactivation
Goud SK, Whittenberger WA, Chattopadhyay S, Abraham MA |
| 2875 - 2880 |
A thermodynamic analysis of hydrogen production by steam reforming of glycerol
Adhikari S, Fernando S, Gwaltney SR, To SDF, Bricka RM, Steele PH, Haryanto A |
| 2881 - 2887 |
The effect of co-existing gases from the process of steam reforming reaction on hydrogen permeability of palladium alloy membrane at high temperatures
Unemoto A, Kaimai A, Sato K, Otake T, Yashiro K, Mizusaki J, Kawada T, Tsuneki T, Shirasaki Y, Yasuda I |
| 2888 - 2894 |
Effect of Cu loading on CeO2 for hydrogen production by oxidative steam reforming of methanol
Perez-Hernandez R, Gutierrez-Martinez A, Gutierez-Wing CE |
| 2895 - 2901 |
Diesel evaporation as the first step of hydrogen production
Sarioglan A, Olgun H, Baranak M, Ersoz A, Atakul H, Ozdogan S |
| 2902 - 2913 |
Heat transfer and hydrogen permeability in modelling industrial membrane reactors for methane steam reforming
De Falco M, Di Paola L, Marrelli L |
| 2914 - 2919 |
Microstructural development in nanocrystalline MgH(2) during H-absorption/desorption cycling
Fatay D, Spassov T, Delchev P, Ribarik G, Revesz A |
| 2920 - 2925 |
Structural and desorption characterisations of milled (MgH2+Y, Ce) powder mixtures for hydrogen storage
Shang CX, Guo ZX |
| 2926 - 2934 |
Nano-micro MgH2-Mg2NiH4 composites: Tayloring a multichannel system with selected hydrogen sorption properties
Montone A, Novakovic JG, Antisari MV, Bassetti A, Bonetti E, Fiorini AL, Pasquini L, Mirenghi L, Rotolo P |
| 2935 - 2942 |
Influence of rapid quenching on the microstructure and electrochemical properties of Co-free LaNi4.92Sn0.33 hydrogen storage electrode alloy
Wei FS, Lei YQ, Chen LX, Lu GL, Wang QD |
| 2943 - 2948 |
In situ formation of Ti hydride and its catalytic effect in doped NaAlH4 prepared by milling NaH/Al with metallic Ti powder
Kang XD, Wang P, Cheng HM |
| 2949 - 2956 |
Effect of the substitution of PR for LA on the microstructure and electrochemical properties of La0.7-xPrxMg0.3Ni2.45Co0.75Mn0.1Al0.2 (x=0.0-0. 3) hydrogen storage electrode alloys
Pan HG, Ma SA, Shen J, Tan JJ, Deng JL, Gao MX |
| 2957 - 2964 |
Simulation of heat transfer in a metal hydride reactor with aluminium foam
Laurencelle F, Goyette J |
| 2965 - 2970 |
Diffusion of hydrogen in cubic Laves phase Ho(1-x)Mm(x)CO(2) (x=0, 0.2 and 0.4) alloys
Srinivas G, Sankaranarayanan V, Ramaprabhu S |
| 2971 - 2976 |
Thermodynamical, structural, hydrogen storage properties and simulation studies of P-C isotherms of (La, Mm) Ni5-yFey
Singh RK, Lototsky MV, Srivastava ON |
| 2977 - 2981 |
Effects of desorption temperature and substitution of Fe for Cr on the hydrogen storage properties of Ti0.32Cr0.43V0.25 alloy
Yoo JH, Shim G, Cho SW, Park CN |
| 2982 - 2987 |
Recycling of sodium metaborate to borax
Park EH, Jeong SU, Jung UH, Kim SH, Lee J, Nam SW, Lim TH, Park YJ, Yu YH |
| 2988 - 3009 |
Comprehensive identification and potential applications of new states of hydrogen
Mills RL, He JL, Lu Y, Nansteel M, Chang ZX, Dhandapani B |
| 3010 - 3025 |
Evidence of catalytic production of hot hydrogen in RF generated hydrogen/argon plasmas
Phillips J, Chen CK, Akhtar K, Dhandapani B, Mills R |
| 3026 - 3039 |
Application of the Cplex-isoelectronic theory to electrocyclisations, sigmatropic rearrangements, cheletropic reactions and antiaromaticity Consistent with Santilli's hadronic chemistry
Cloonan MO |
| 3040 - 3045 |
Recovery of deuterium from water-isotope mixture by thermal diffusion in inclined Frazier scheme
Yeh HM |
| 3046 - 3053 |
Design of PC based high pressure hydrogen absorption/desorption apparatus
Cheng HH, Deng XX, Li SL, Chen W, Chen DM, Yang K |
| 3054 - 3058 |
Effects of hydrogen on diffusion bonding of hydrogenated Ti6Al4V alloy containing 0.3 wt% hydrogen at fast heating rate
Feng JC, Liu H, He P, Cao J |
| 3059 - 3065 |
Effect of hydrogen addition on the route preference in natural gas flow in regular, horizontal T-junctions
Hamersma PJ, Rosmalenb RJV, Michels JPJ, Schouten JA |
| 3066 - 3072 |
Hydrogen as an ignition-controlling agent for HCCI combustion engine by suppressing the low-temperature oxidation
Shudo T, Yamada H |
| 3073 - 3083 |
Increase of passenger car engine efficiency with low engine-out emissions using hydrogen-natural gas mixtures: A thermodynamic analysis
Dimopoulos P, Rechsteiner C, Soltic P, Laemmle C, Boulouchos K |
| 3084 - 3092 |
A simulation and design tool for hydrogen SI engine systems - Validation of the intake hydrogen flow model
Drew AN, Timoney DJ, Smith WJ |
| 3093 - 3099 |
Analysis of the benefits of carbon credits to hydrogen addition to midsize gas turbine feedstocks
Towns B, Skolnik EG, Miller J, Schefer RW, Keller JO |
| 3100 - 3104 |
A new procedure for the preparation of hydrogen-permeable thin films
Oliveira MCE, Viana AS |
| 3105 - 3108 |
Swift heavy ion (SHI) irradiated polymer blend membranes for hydrogen permeation
Kulshrestha V, Awasthi K, Vijay YK |
