| 1 - 1 |
State of the art materials for hydrogen energy
Titus E, Gil JC, Chaudhari A |
| 2 - 22 |
Feasibility assessment, process design and dynamic simulation for cogeneration of heat and power by steam reforming of diluted bioethanol
Tripodi A, Bahadori E, Ramis G, Rossetti I |
| 23 - 33 |
Cobalt-based composite films on electrochemically activated carbon cloth as high performance overall water splitting electrodes
Kordek K, Yin HJ, Rutkowski P, Zhao HJ |
| 34 - 60 |
A decade of ceria based solar thermochemical H2O/CO2 splitting cycle
Bhosale RR, Takalkar G, Sutar P, Kumar A, AlMomani F, Khraisheh M |
| 61 - 71 |
Thermodynamic analysis of Ni-ferrite based solar thermochemical H2O splitting cycle for H-2 production
Bhosale RR |
| 72 - 81 |
A highly efficient hydrogen generation electrolysis system using alkaline zinc hydroxide solution
Horri BA, Choolaei M, Chaudhry A, Qaalib H |
| 82 - 90 |
The impact of ammonia feed distribution on the performance of a fixed bed membrane reactor for ammonia decomposition to ultra-pure hydrogen
Abashar MEE |
| 91 - 100 |
Experimental assessment of the cyclability of the Mn2O3/MnO thermochemical cycle for solar hydrogen production
Herradon C, Molina R, Marugan J, Botas JA |
| 101 - 109 |
Kinetic performance of TiO2/Pt/reduced graphene oxide composites in the photocatalytic hydrogen production
Rivero MJ, Iglesias O, Ribao P, Ortiz I |
| 110 - 117 |
(In, Cu) Co-doped ZnS nanoparticles for photoelectrochemical hydrogen production
Lee GJ, Chen HC, Wu JJ |
| 118 - 127 |
Thermochemical H-2 production via solar driven hybrid SrO/SrSO4 water splitting cycle
Bhosale RR |
| 128 - 135 |
A reduced graphene oxide interface layer for improved power conversion efficiency of aqueous quantum dots sensitized solar cells
Wang LQ, Feng JM, Tong YY, Liang J |
| 136 - 143 |
Biohydrogen production from hydrolyzed waste wheat by dark fermentation in a continuously operated packed bed reactor: The effect of hydraulic retention time
Gorgec FK, Karapinar I |
| 144 - 154 |
Bioconversion of crude glycerol from waste cooking oils into hydrogen by sub-tropical mixed and pure cultures
Rodrigues CV, Nespeca MG, Sakamoto IK, de Oliveira JE, Varesche MBA, Maintinguer SI |
| 155 - 163 |
Hydrogen bioproduction with anaerobic bacteria consortium from brewery wastewater
Pachiega R, Rodrigues MF, Rodrigues CV, Sakamoto IK, Varesche MBA, De Oliveira JE, Maintinguer SI |
| 164 - 173 |
Improved biogas yield from organic fraction of municipal solid waste as preliminary step for fuel cell technology and hydrogen generation
Bala R, Gautam V, Mondal MK |
| 174 - 179 |
Highly branched Pt-Cu nanodandelion with high activity for oxygen reduction reaction
Yang T, Pukazhselvan D, da Silva EL, Santos MC, Meng LJ, Ramasamy D, Jothi S, Graca V, Shi SK |
| 180 - 190 |
Catalytic steam reforming of biomass-derived acetic acid over modified Ni/gamma-Al2O3 for sustainable hydrogen production
Choi IH, Hwang KR, Lee KY, Lee IG |
| 191 - 201 |
Utilization of photocatalytic hydrogen evolved (Zn,Sn)(O,S) nanoparticles to reduce 4-nitrophenol to 4-aminophenol
Abdullah H, Kuo DH |
| 202 - 212 |
Highly active and stable Sr0.92Y0.08Ti1-xRuxO3-d in dry reforming for hydrogen production
Kim GS, Lee BY, Ham HC, Han J, Nam SW, Moon J, Yoon SP |
| 213 - 225 |
Hydrogen production from glycerol dry reforming over Ag-promoted Ni/Al2O3
Harun N, Abidin SZ, Osazuwa OU, Taufiq-Yap YH, Azizan MT |
| 226 - 232 |
Three-demensional Ni-Co-NiCo2O4/NF as an efficient electrode for hydrogen evolution reaction
Yang XY, Wang GL, Zhang DM, Zhang HQ, Yan Q, Zhu M, Ye K, Zhu K, Cheng K, Yan J, Cao DX, Jiao WZ, Liu YZ |
| 233 - 245 |
Alumina supported Au/Y-doped ceria catalysts for pure hydrogen production via PROX
Ilieva L, Petrova P, Pantaleo G, Zanella R, Sobczak JW, Lisowski W, Kaszkur Z, Munteanu G, Yordanova I, Liotta LF, Venezia AM, Tabakova T |
| 246 - 255 |
Natural clay based nickel catalysts for dry reforming of methane: On the effect of support promotion (La, Al, Mn)
Liu HR, Hadjltaief HB, Benzina M, Galvez ME, Da Costa P |
| 256 - 273 |
Ni supported on CaO-MgO-Al2O3 as a highly selective and stable catalyst for H-2 production via the glycerol steam reforming reaction
Charisiou ND, Papageridis KN, Tzounis L, Sebastian V, Hinder SJ, Baker MA, AlKetbi M, Polychronopoulou K, Goula MA |
| 274 - 286 |
Syngas production from dry methane reforming over yttrium-promoted nickel-KIT-6 catalysts
Swirk K, Galvez ME, Motak M, Grzybek T, Ronning M, Da Costa P |
| 287 - 294 |
Zeolite supported Pd electrocatalyst nanoparticle characterization
Yao J, Yao YF |
| 295 - 303 |
Polymer modified sulfonated PEEK ionomers membranes and the use of Ru3Pd6Pt as cathode catalyst for H-2/O-2 fuel cells
Martinez-Casillas D, Solorza O, Molla S, Montero A, Garcia-Bernabe A, Compan V |
| 304 - 317 |
Hydrogen adsorption on Ni/gamma-Al2O3 in a fixed-bed adsorber: Experimental validation and numerical modelling
da Silva PBA, de Carvalho JDDG, da Silva JD |
| 318 - 324 |
The hydrogen storage properties and catalytic mechanism of the CuFe2O4-doped MgH2 composite system
Ismail M, Mustafa NS, Ali NA, Sazelee NA, Yahya MS |
| 325 - 331 |
Hydrogen uptake of manganese oxide-multiwalled carbon nanotube composites
Rather SU |
| 332 - 337 |
Assessment of the long-term stability of the polymer of intrinsic microporosity PIM-1 for hydrogen storage applications
Rochat S, Polak-Krasna K, Tian M, Mays TJ, Bowen CR, Burrows AD |
| 338 - 344 |
Mg-based composites for enhanced hydrogen storage performance
Tian M, Shang CX |
| 345 - 353 |
Boron substitution effect on adsorption of H-2 molecules on organometallic complexes
Tavhare P, Titus E, Chaudhari A |
| 354 - 361 |
Reduced mass transport resistance in polymer electrolyte membrane fuel cell by polyethylene glycol addition to catalyst ink
Lee HY, Kim SK, Lee MR, Peck DH, Kang YC, Kim CS |
| 362 - 378 |
Incorporating graphene oxide to improve the performance of Nafion-mordenite composite membranes for a direct methanol fuel cell
Prapainainar P, Pattanapisutkun N, Prapainainar C, Kongkachuichay P |
| 379 - 388 |
Three dimensional two-phase and non-isothermal numerical simulation of multi-channels PEMFC
Zhang ZQ, Liu W, Wang YL |
| 389 - 407 |
Rapid humidity regulation by mixing of dry and humid gases with feedback control for PEM fuel cells
Raman S, Swaminathan S, Bhardwaj S, Tanneru HK, Bullecks B, Rengaswamy R |
| 408 - 420 |
Simulation research on a novel control strategy for fuel cell extended-range vehicles
Geng C, Jin XF, Zhang X |
| 421 - 435 |
Electrooxidation study of pure ethanol/methanol and their mixture for the application in direct alcohol alkaline fuel cells (DAAFCs)
Gupta UK, Pramanik H |
| 436 - 445 |
Influence of fuel ratio on the performance of combustion synthesized bifunctional cobalt oxide catalysts for fuel cell application
Ashok A, Kumar A, Bhosale RR, Almomani F, Saad MAHS, Suslov S, Tarlochan F |
| 446 - 456 |
On the effect of gas channels-electrode interface area on SOFCs performance
Moreno-Blanco J, Elizalde-Blancas F, Riesco-Avila JM, Selman-Flores JM, Gallegos-Munoz A |
| 457 - 468 |
Experimental study on diffusion combustion of high-speed hydrogen round microjets
Kozlou VV, Grek GR, Kozlou GV, Lituinenko YA, Shmakou AG |
| 469 - 476 |
Experimental studies on the explosion indices in turbulent stoichiometric H-2/CH4/air mixtures
Sun ZY |
| 477 - 486 |
Engine speed and air-fuel ratio effect on the combustion of methane augmented hydrogen rich syngas in DI SI engine
Hagos FY, Aziz ARA, Sulaiman SA, Mamat R |
| 487 - 493 |
Study on laminar combustion characteristic of low calorific value gas blended with hydrogen in a constant volume combustion bomb
Hu ZQ, Zhang X |
