| 18591 - 18597 |
WC as a non-platinum hydrogen evolution electrocatalyst for high temperature PEM water electrolysers
Nikiforov AV, Petrushina IM, Christensen E, Alexeev NV, Samokhin AV, Bjerrum NJ |
| 18598 - 18614 |
Static-dynamic modelling of the electrical behaviour of a commercial advanced alkaline water electrolyser
Ursua A, Sanchis P |
| 18615 - 18621 |
Performance evaluation and optimum design strategies of an acid water electrolyzer system for hydrogen production
Zhang HC, Su SH, Chen XH, Lin GX, Chen JC |
| 18622 - 18628 |
Optimization of catholyte concentration and anolyte pHs in two chamber microbial electrolysis cells
Nam JY, Logan BE |
| 18629 - 18640 |
Antimony doped tin oxides and their composites with tin pyrophosphates as catalyst supports for oxygen evolution reaction in proton exchange membrane water electrolysis
Xu JY, Li QF, Hansen MK, Christensen E, Garcia ALT, Liu GY, Wang XD, Bjerrum NJ |
| 18641 - 18653 |
Estimating microbial electrolysis cell (MEC) investment costs in wastewater treatment plants: Case study
Escapa A, Gomez X, Tartakovsky B, Moran A |
| 18654 - 18660 |
Nanoporous oxide coatings on stainless steel to enable water splitting and reduce the hydrogen evolution overpotential
Leonard KC, Tejedor-Anderson MI, Anderson MA |
| 18661 - 18671 |
Kinetic modelling of the first step of Mn2O3/MnO thermochemical cycle for solar hydrogen production
Botas JA, Marugan J, Molina R, Herradon C |
| 18672 - 18678 |
Effect of composition on the reactivity of Al-rich alloys with water
Wang W, Chen W, Zhao XM, Chen DM, Yang K |
| 18679 - 18687 |
Temperature- and pH-dependent mechanism of hydrogen production from hydrothermal reactions of sulfide
Setiani P, Watanabe N, Kishita A, Tsuchiya N |
| 18688 - 18693 |
Facile synthesis of porous 3D CoNiCu nano-network structure and their activity towards hydrogen evolution reaction
Wang CS, Li W, Lu XH, Xie SL, Xiao FM, Liu P, Tong YX |
| 18694 - 18703 |
Experimental and numerical investigation on solar concentrating characteristics of a sixteen-dish concentrator
Xia XL, Dai GL, Shuai Y |
| 18704 - 18712 |
Energy and exergy analyses and optimization study of an integrated solar heliostat field system for hydrogen production
Ratlamwala TAH, Dincer I, Aydin M |
| 18713 - 18730 |
Nanostructured bilayered thin films in photoelectrochemical water splitting - A review
Choudhary S, Upadhyay S, Kumar P, Singh N, Satsangi VR, Shrivastav R, Dass S |
| 18731 - 18739 |
Exergy analysis and optimization of a hydrogen production process by a solar-liquefied natural gas hybrid driven transcritical CO2 power cycle
Sun ZX, Wang JF, Dai YP, Wang JH |
| 18740 - 18746 |
Photocatalytic hydrogen production over CuGa(2-x)Ye(x)O(4) spinel
Preethi V, Kanmani S |
| 18747 - 18760 |
Effects of linoleic acid and its degradation by-products on mesophilic hydrogen production using flocculated and granular mixed anaerobic cultures
Saady NMC, Chaganti SR, Lalman JA, Veeravalli SS, Shanmugam SR, Heath DD |
| 18761 - 18772 |
Assessing the impact of palmitic, myristic and lauric acids on hydrogen production from glucose fermentation by mixed anaerobic granular cultures
Saady NMC, Chaganti SR, Lalman JA, Veeravalli SS, Shanmugam SR, Heath DD |
| 18773 - 18781 |
A direct synthesis of nickel nanoclusters embedded on multicomponent mesoporous metal oxides and their catalytic properties for glycerol steam reforming to hydrogen
Lee D, Lee HC |
| 18782 - 18790 |
Modeling of hydrogen production process from biomass using oxygen blown gasification
Bhattacharya A, Bhattacharya A, Datta A |
| 18791 - 18797 |
Enhancement of hydrogen production by the filamentous non-heterocystous cyanobacterium Arthrospira sp PCC 8005
Raksajit W, Satchasataporn K, Lehto K, Maenpaa P, Incharoensakdi A |
| 18798 - 18814 |
Low temperature CO oxidation and water gas shift reaction over Pt/Pd substituted in Fe/TiO2 catalysts
Shinde VM, Madras G |
| 18815 - 18826 |
Effect of preparation method on the performance of the Ni/Al2O3 catalysts for aqueous-phase reforming of ethanol: Part II-characterization
Roy B, Artyushkova K, Pham HN, Li L, Datye AK, Leclerc CA |
| 18827 - 18842 |
Synthesis of Ce and Pr-promoted Ni and Co catalysts from hydrotalcite type precursors by reconstruction method
Munoz M, Moreno S, Molina R |
| 18843 - 18850 |
New non-platinum Ir-V-Mo electro-catalyst, catalytic activity and CO tolerance in hydrogen oxidation reaction
Li B, Higgins DC, Yang DJ, Lin R, Yu ZP, Ma JX |
| 18851 - 18859 |
Nanocatalyst: Electrospun nanofibers of PVDF - Dicationic tetrachloronickelate (II) anion and their effect on hydrogen generation from the hydrolysis of sodium borohydride
Chinnappan A, Kim H |
| 18860 - 18869 |
Highly efficient Zr-substituted catalysts CuZnAl1-xZrxO used for hydrogen production via dimethyl ether steam reforming
Sun ZS, Meng M, Zhang LJ, Zha YQ, Zhou XY, Jiang Z, Zhang S, Huang YY |
| 18870 - 18881 |
Effect of preparation conditions on the performance of nano Pt-CuO/C electrocatalysts for methanol electro-oxidation
Amin RS, Hameed RMA, El-Khatib KM, El-Abd H, Souaya ER |
| 18882 - 18887 |
Flow rate measurement via isothermal discharge method for hydrogen
Okawa Y, Youn C, Kawashima K, Kagawa T |
| 18888 - 18894 |
High hydrogen storage capacity of rice hull based porous carbon
Chen HB, Wang HB, Xue ZP, Yang LF, Xiao Y, Zheng MT, Lei BF, Liu YL, Sun LX |
| 18895 - 18903 |
Improved hydrogen storage reversibility of LiBH4 destabilized by Y(BH4)(3) and YH3
Gennari FC |
| 18904 - 18914 |
Dynamics of hydrogen powered CAES based gas turbine plant using sodium alanate storage system
Khaitan SK, Raju M |
| 18915 - 18919 |
Temperature-induced selectivity enhancement in hydrogen generation from Rh-Ni nanoparticle-catalyzed decomposition of hydrous hydrazine
Singh AK, Yadav M, Aranishi K, Xu Q |
| 18920 - 18926 |
Confined LiBH4: Enabling fast hydrogen release at similar to 100 degrees C
Sun T, Liu J, Jia Y, Wang H, Sun DL, Zhu M, Yao XD |
| 18927 - 18936 |
Resolving the stability and structure of strontium chloride amines from equilibrium pressures, XRD and DFT
Lysgaard S, Ammitzboll AL, Johnsen RE, Norby P, Quaade UJ, Vegge T |
| 18937 - 18943 |
The first-principles investigation on the electronic structure and mechanism of LiH + NH3 -> LiNH2 + H-2 reaction
Lan ZQ, Jiang WQ, Bai JD, Guo J |
| 18944 - 18951 |
Tunable poly(2-acrylamido-2-methyl-1-propan sulfonic acid) based microgels with better catalytic performances for Co and Ni nanoparticle preparation and their use in hydrogen generation from NaBH4
Sagbas S, Sahiner N |
| 18952 - 18958 |
Structural, electronic and thermodynamic properties of ZrCo and ZrCoH3: A first-principles study
Chattaraj D, Parida SC, Dash S, Majumder C |
| 18959 - 18971 |
Neutron generation via the mechanism adsorption of pressurized deuterium on an electron deficient titanium matrix. An MD-DFT combined analysis on the mechanism of the Ti-D bond formation
Giorgi G, Belanzoni P, Asami T, Yamashita K |
| 18972 - 18980 |
Prediction performance of PEM fuel cells by gene expression programming
Nazari A |
| 18981 - 18988 |
Sulfonated poly(arylene ether sulfone)/disulfonated silsesquioxane hybrid proton conductors for proton exchange membrane fuel cell application
Yoon YJ, Kim TH, Yu DM, Hong YT |
| 18989 - 18995 |
Graphene nanosheet-CNT hybrid nanostructure electrode for a proton exchange membrane fuel cell
Du HY, Wang CH, Hsu HC, Chang ST, Huang HC, Chen LC, Chen KH |
| 18996 - 19006 |
Pore network model of the cathode catalyst layer of proton exchange membrane fuel cells: Analysis of water management and electrical performance
El Hannach M, Prat M, Pauchet J |
| 19007 - 19016 |
Cross-linked poly(arylene ether ketone) electrolyte membranes with enhanced proton conduction for fuel cells
Dang HS, Kim D |
| 19017 - 19017 |
Comments on "Flow dynamic characteristics in flow field of proton exchange membrane fuel cells"
Awad MM |
| 19018 - 19026 |
Innovative gasketless carbon composite bipolar plates for PEM fuel cells
Lim JW, Kim M, Kim KH, Lee DG |
| 19027 - 19035 |
Characterization of nanosized Ce0.8Sm0.2O1.9-infiltrated Sm0.5Sr0.5Co0.8Cu0.2O3-delta cathodes for solid oxide fuel cells
Fu YP, Ouyang J, Li CH, Hu SH |
| 19036 - 19044 |
Carbonates formed during BSCF preparation and their effects on performance of SOFCs with BSCF cathode
Zhao Z, Liu L, Zhang XM, Tu BF, Ou DR, Cheng MJ |
| 19045 - 19054 |
Electrochemical characteristics and performance of anode-supported SOFCs fabricated using carbon microspheres as a pore-former
Horri BA, Selomulya C, Wang HT |
| 19055 - 19064 |
Core shell like behavior of PdMo nanoparticles on multiwall carbon nanotubes and their methanol oxidation activity in alkaline medium
Kakati N, Maiti J, Lee SH, Yoon YS |
| 19065 - 19072 |
Nitrogen-doped carbon xerogel as high active oxygen reduction catalyst for direct methanol alkaline fuel cell
Liu SS, Zhang HM, Xu Z, Zhong HX, Jin H |
| 19073 - 19081 |
Single wall nanohorns as electrocatalyst support for vapour phase high temperature DMFC
Brandao L, Boaventura M, Ribeirinha P |
| 19082 - 19091 |
The effect of Nafion content in a graphitized carbon nanofiber-based anode for the direct methanol fuel cell
Kanninen P, Borghei M, Ruiz V, Kauppinen EI, Kallio T |
| 19092 - 19102 |
Mixed ionic electronic conducting perovskite anode for direct carbon fuel cells
Kulkarni A, Ciacchi FT, Giddey S, Munnings C, Badwal SPS, Kimpton JA, Fini D |
| 19103 - 19110 |
Development of a power management unit for small portable direct borohydride fuel cell-NiMH battery hybrid system
Sanli AE, Gunlu G, Aytac A, Mat M |
| 19111 - 19124 |
Thermal-economic-environmental analysis and multi-objective optimization of an internal-reforming solid oxide fuel cell-gas turbine hybrid system
Shirazi A, Aminyavari M, Najafi B, Rinaldi F, Razaghi M |
| 19125 - 19132 |
Carbon dioxide reforming of methane in a SrCe0.7Zr0.2Eu0.1O3-delta proton conducting membrane reactor
Li JL, Yoon H, Wachsman ED |
| 19133 - 19137 |
Improved oxygen permeability of Ce0.8Sm0.2O2-delta-PrBaCo2O5+delta dual-phase membrane by surface-modifying porous layer
Chen T, Zhao HL, Xie ZX, Lu Y, Xu NS |
| 19138 - 19145 |
Analysis of the economy of scale and estimation of the future hydrogen production costs at on-site hydrogen refueling stations in Korea
Gim B, Yoon WL |
| 19146 - 19157 |
Time-averaged heat transfer correlation for direct injection hydrogen fueled engine
Hamada KI, Rahman MM, Aziz ARA |
| 19158 - 19167 |
Laminar burning velocities and flame characteristics of CO-H-2-CO2-O-2 mixtures
Wang JH, Huang ZH, Kobayashi H, Ogami Y |
| 19168 - 19176 |
Experimental and modeling study on auto-ignition characteristics of methane/hydrogen blends under engine relevant pressure
Zhang YJ, Jiang X, Wei LJ, Zhang JX, Tang CL, Huang ZH |
| 19177 - 19189 |
Laminar flame speed correlations for pure-hydrogen and high-hydrogen content syngas blends with various diluents
Ravi S, Petersen EL |
| 19190 - 19197 |
Experimental and numerical investigation on combustion characteristics of premixed hydrogen/air flame in a micro-combustor with a bluff body
Wan JL, Fan AW, Maruta K, Yao H, Liu W |
| 19198 - 19209 |
Effect of hydrogen addition in the co-flow of a methane diffusion flame in reducing nitric oxide emissions
Arun S, Raghuram S, Sreenivasan R, Raghavan V |
| 19210 - 19218 |
Gradient microstructure of TC21 alloy induced by hydrogen during hydrogenation
Su YQ, Wang SJ, Luo LS, Wang L, Dong FY, Guo JJ, Fu HZ |
| 19219 - 19230 |
Influence of cerium (III) ions on corrosion and hydrogen evolution of carbon steel in acid solutions
Heakal FET, Tantawy NS, Shehata OS |
| 19231 - 19240 |
US marginal electricity grid mixes and EV greenhouse gas emissions
Thomas CE |
| 19241 - 19249 |
The quantitative risk assessment of a hydrogen generation unit
Jafari MJ, Zarei E, Badri N |
| 19250 - 19257 |
Suppression of hydrogen-oxygen-nitrogen explosions by fine water mist: Part 1. Burning velocity
Ingram JM, Auerill AF, Battersby PN, Holborn PG, Nolan PF |
| 19258 - 19267 |
Suppression of hydrogen-oxygen-nitrogen explosions by fine water mist: Part 2. Mitigation of vented deflagrations
Battersby PN, Averill AF, Ingram JM, Holborn PG, Nolan PF |
| 19268 - 19268 |
Hydrogen production from sea water using waste aluminium and calcium oxide (Retraction of vol 37, pg 7451, 2012)
Pudukudy M, Yaakob Z, Narayanan B, Ramakrishnan R, Viswanathan S |
| 19269 - 19269 |
2011 International Workshop on Molten Carbonates & Related Topics
Basile A, Cassir M, Zhu B, Iulianelli A |
| 19270 - 19279 |
Wetting of polarized materials by molten carbonate
Selman JR, Hsieh PH |
| 19280 - 19288 |
Scientific and technical maturity of molten carbonate technology
Selman JR, Chen CC |
| 19289 - 19294 |
Effect of CO2 partial pressure on the cathode lithiation in molten carbonate fuel cells
Youn J, Ryu B, Shin M, Kang H, Kim H, Chang I, Lee T, Kwon H |
| 19295 - 19303 |
MCFC-based CO2 capture system for small scale CHP plants
Desideri U, Proietti S, Sdringola P, Cinti G, Curbis F |
| 19304 - 19311 |
Electrode performance of a new La0.6Sr0.4Co0.2Fe0.8O3 coated cathode for molten carbonate fuel cells
Song SA, Jang SC, Han J, Yoon SP, Nam SW, Oh IH, Oh SG |
| 19312 - 19318 |
Electrochemical impedance study of the poisoning behaviour of Ni-based anodes at low concentrations of H2S in an MCFC
Devianto H, Simonetti E, McPhail SJ, Zaza F, Cigolotti V, Paoletti C, Moreno A, La Barbera A, Luisetto I |
| 19319 - 19328 |
Analysis of the carbon anode in direct carbon conversion fuel cells
Cooper JF, Selman JR |
| 19329 - 19336 |
Experimental and theoretical analysis of H2S effects on MCFCs
Di Giulio N, Bosio B, Cigolotti V, Nam SW |
| 19337 - 19344 |
Development of tubular hybrid direct carbon fuel cell
Bonaccorso AD, Irvine JTS |
| 19345 - 19350 |
Strategies and new developments in the field of molten carbonates and high-temperature fuel cells in the carbon cycle
Cassir M, McPhail SJ, Moreno A |
| 19351 - 19356 |
Nanocomposite electrode materials for low temperature solid oxide fuel cells using the ceria-carbonate composite electrolytes
Zhao YF, Xiong DB, Qin HY, Gao FM, Inui H, Zhu B |
| 19357 - 19364 |
Theoretical predictions vs. experimental measurements of the electrical conductivity of molten Li2CO3-K2CO3 modified by additives
Lair V, Albin V, Ringuede A, Cassir M |
| 19365 - 19370 |
Integration design of membrane electrode assemblies in low temperature solid oxide fuel cell
Qin HY, Zhu B, Raza R, Singh M, Fan LD, Lund P |
| 19371 - 19379 |
Gadolinia-doped ceria mixed with alkali carbonates for SOFC applications: II - An electrochemical insight
Benamira M, Ringuede A, Hildebrandt L, Lagergren C, Vannier RN, Cassir M |
| 19380 - 19387 |
SDC/Na2CO3 nanocomposite: New freeze drying based synthesis and application as electrolyte in low-temperature solid oxide fuel cells
Wang XD, Ma Y, Li SH, Zhu B, Muhammed M |
| 19388 - 19394 |
Pr2NiO4-Ag composite cathode for low temperature solid oxide fuel cells with ceria-carbonate composite electrolyte
Fan LD, Chen MM, Wang CY, Zhu B |
| 19395 - 19400 |
Titanium carbide derived nanoporous carbon for supercapacitor applications
Zhao YF, Wang W, Xiong DB, Shao GJ, Xia W, Yu SX, Gao FM |
| 19401 - 19406 |
Enhanced ionic conductivity in calcium doped ceria - Carbonate electrolyte: A composite effect
Ma Y, Wang XD, Khalifa HA, Zhu B, Muhammed M |
| 19407 - 19416 |
Electrical conductivity and related properties of molten carbonates coexisting with ceria-based oxide powder for hybrid electrolyte
Mizuhata M, Ohashi T, Beleke AB |
| 19417 - 19425 |
State of the art ceria-carbonate composites (3C) electrolyte for advanced low temperature ceramic fuel cells (LTCFCs)
Wang XD, Ma Y, Zhu B |
