| 3111 - 3122 |
Simultaneous production of H-2 and C-2 hydrocarbons by using a novel configuration solid-electrolyte plus fixed bed reactor
Caravaca A, Ferreira VJ, de Lucas-Consuegra A, Figueiredo JL, Faria JL, Valverde JL, Dorado F |
| 3123 - 3129 |
A Li-doped Co3O4 oxygen evolution catalyst for non-precious metal alkaline anion exchange membrane water electrolysers
Wu X, Scott K |
| 3130 - 3136 |
Phytic acid-coated titanium as electrocatalyst of hydrogen evolution reaction in alkaline electrolyte
Liu B, He JB, Chen YJ, Wang Y, Deng N |
| 3137 - 3145 |
Platinum-rare earth electrodes for hydrogen evolution in alkaline water electrolysis
Santos DMF, Sequeira CAC, Maccio D, Saccone A, Figueiredo JL |
| 3146 - 3153 |
HIx concentration by electro-electrodialysis using stacked cells for thermochemical water-splitting IS process
Chen SZ, Wang RL, Zhang P, Wang LJ, Xu JM, Ke YC |
| 3154 - 3165 |
A chronopotentiometry based identification of time-varying different transport resistances of electro-electrodialysis cell used for concentration of HIx solution
Sow PK, Shukla A |
| 3166 - 3176 |
A nanocomposite photoelectrode made of 2.2 eV band gap copper tungstate (CuWO4 and multi-wall carbon nanotubes for solar-assisted water splitting
Gaillard N, Chang YC, DeAngelis A, Higgins S, Braun A |
| 3177 - 3188 |
A facile one-step synthesis of single crystalline hierarchical WO3 with enhanced activity for photoelectrochemical solar water oxidation
Biswas SK, Baeg JO |
| 3189 - 3195 |
Application of artificial neural networks for modeling of biohydrogen production
Nasr N, Hafez H, El Naggar MH, Nakhla G |
| 3196 - 3205 |
Optimizing the production of hydrogen and 1,3-propanediol in anaerobic fermentation of biodiesel glycerol
Liu BC, Christiansen K, Parnas R, Xu ZH, Li BK |
| 3206 - 3212 |
Isolation and characterization of a new hydrogen-producing strain Bacillus sp FS2011
Song ZX, Li WW, Li XH, Dai Y, Peng XX, Fan YT, Hou HW |
| 3213 - 3225 |
Redox properties of Co- and Cu-based catalysts for the steam reforming of ethanol
Finocchio E, Rossetti I, Ramis G |
| 3226 - 3232 |
Catalytic performance of steam reforming of ethanol at low temperature over LaNiO3 perovskite
Lin KH, Wang CB, Chien SH |
| 3233 - 3240 |
Preparation of Ru-Cs catalyst and its application on hydrogen production by ammonia decomposition
Huang DC, Jiang CH, Liu FJ, Cheng YC, Chen YC, Hsueh KL |
| 3241 - 3249 |
In situ synthesized Fe-Co/C nano-alloys as catalysts for the hydrolysis of ammonia borane
Qiu FY, Li L, Liu G, Wang YJ, Wang YP, An CH, Xu YN, Xu CC, Wang Y, Jiao LF, Yuan HT |
| 3250 - 3256 |
Facile synthesis of a Bi-modified PtRu catalyst for methanol and ethanol electro-oxidation in alkaline medium
Huang YY, Cai JD, Guo YL |
| 3257 - 3267 |
Investigation of different approaches for hydrogen management in petrochemical complexes
Shariati M, Tahouni N, Panjeshahi MH |
| 3268 - 3274 |
Hydrogen permeation and diffusion in densified MOF-5 pellets
Xu C, Yang J, Veenstra M, Sudik A, Purewal JJ, Ming Y, Hardy BJ, Warner J, Maurer S, Mueller U, Siegel DJ |
| 3275 - 3282 |
Nanoconfined 2LiBH(4)-MgH2-TiCl3 in carbon aerogel scaffold for reversible hydrogen storage
Gosalawit-Utke R, Milanese C, Javadian P, Jepsen J, Laipple D, Karmi F, Puszkiel J, Jensen TR, Marini A, Klassen T, Dornheim M |
| 3283 - 3290 |
Hydrogen storage in amine boranes: Ionic liquid supported thermal dehydrogenation of ethylene diamine bisborane
Sahler S, Konnerth H, Knoblauch N, Prechtl MHG |
| 3291 - 3296 |
Reversible hydrogen storage in LiBH4/Ca(AlH4)(2) systems
Liu DM, Gao C, Qian ZX, Si TZ, Zhang QA |
| 3297 - 3303 |
Facile synthesis and hydrogen storage application of nitrogen-doped carbon nanotubes with bamboo-like structure
Chen L, Xia KS, Huang LZ, Li LW, Pei LB, Fei SX |
| 3304 - 3312 |
Remarkable irreversible and reversible dehydrogenation of LiBH4 by doping with nanosized cobalt metalloid compounds
Cai WT, Wang H, Jiao LF, Wang YJ, Zhu M |
| 3313 - 3322 |
Improved H-2 production rate by hydrolysis of Ammonia Borane using quaternary alloy catalysts
Fernandes R, Patel N, Paris A, Calliari L, Miotello A |
| 3323 - 3329 |
Combined method to prepare core-shell structured catalyst for proton exchange membrane fuel cells
Zhu H, Luo MC, Zhang S, Wei LL, Wang FH, Wang ZM, Wei YS, Han KF |
| 3330 - 3337 |
The effects of the gravity on transient responses and cathode flooding in a proton exchange membrane fuel cell
Najjari M, Khemili F, Ben Nasrallah S |
| 3338 - 3345 |
PtFeNi tri-metallic alloy nanoparticles as electrocatalyst for oxygen reduction reaction in proton exchange membrane fuel cells with ultra-low Pt loading
Li BS, Chan SH |
| 3346 - 3351 |
Thermal crosslinked and nanodiamond reinforced SPEEK composite membrane for PEMFC
Hou HY, Polini R, Di Vona ML, Liu XX, Sgreccia E, Chailan JF, Knauth P |
| 3352 - 3363 |
Thermodynamic analysis of an SOFC-GT-ORC integrated power system with liquefied natural gas as heat sink
Yan ZQ, Zhao P, Wang JF, Dai YP |
| 3364 - 3372 |
Layered LnBa(1-x)Sr(x)CoCuO(5+delta) (Ln = Nd and Gd) perovskite cathodes for intermediate temperature solid oxide fuel cells
West M, Manthiram A |
| 3373 - 3379 |
Large-scale DMFC stack model: The effect of a condensation front on stack performance
McIntyre J, Kulikovsky AA, Muller M, Stolten D |
| 3380 - 3386 |
Facile electrocatalytic oxidation of ethanol using Ag/Pd nanoalloys modified carbon ionic liquid electrode
Safavi A, Kazemi H, Momeni S, Tohidi M, Mehrin PK |
| 3387 - 3394 |
Cadmium-doped cobalt/carbon nanoparticles as novel nonprecious electrocatalyst for methanol oxidation
Barakat NAM, Abdelkareem MA, Yousef A, Al-Deyab SS, El-Newehy M, Kim HY |
| 3395 - 3400 |
Effect of non-uniform parallel channel on performance of passive direct methanol fuel cell
Gholami O, Imen SJ, Shakeri M |
| 3401 - 3418 |
Hydrogen car fill-up process modeling and simulation
Olmos F, Manousiouthakis VI |
| 3419 - 3432 |
Decarbonising road transport with hydrogen and electricity: Long term global technology learning scenarios
Anandarajah G, McDowall W, Ekins P |
| 3433 - 3446 |
Lifecycle performance assessment of fuel cell/battery electric vehicles
Hwang JJ, Kuo JK, Wu W, Chang WR, Lin CH, Wang SE |
| 3447 - 3458 |
Effect of hydrogen on H-2/CH4 flame structure of MILD combustion using the LES method
Afarin Y, Tabejamaat S |
| 3459 - 3470 |
Sensitivity to change in laminar burning velocity and Markstein length resulting from variable hydrogen fraction in blast furnace gas for changing ambient conditions
Pugh DG, O'Doherty T, Griffiths AJ, Bowen PJ, Crayford AP, Marsh R |
| 3471 - 3487 |
Modelling the mitigation of hydrogen deflagrations in a vented cylindrical rig with water fog and nitrogen dilution
Holborn PG, Battersby P, Ingram JM, Averill AF, Nolan PF |
| 3488 - 3496 |
Reduction in carbon dioxide and production of methane by biological reaction in the electronics industry
Kim S, Choi K, Chung J |
| 3497 - 3502 |
Bioelectrochemical systems for simultaneously production of methane and acetate from carbon dioxide at relatively high rate
Jiang Y, Su M, Zhang Y, Zhan GQ, Tao Y, Li DP |
| 3503 - 3512 |
Release characteristics of highly pressurized hydrogen through a small hole
Han SH, Chang D, Kim JS |
| 3513 - 3520 |
Room temperature H-2 sensing using functionalized GaN nanotubes with ultra low activation energy
Sahoo P, Dhara S, Dash S, Amirthapandian S, Prasad AK, Tyagi AK |
| 3521 - 3521 |
On the feasibility of developing hydrogen storages capable of adsorption hydrogen both in its molecular and atomic states (vol 37, pg 18061, 2012)
Goncharov A, Guglya A, Melnikova E |
