| 13493 - 13501 |
Electrochemically fabricated NiCu alloy catalysts for hydrogen production in alkaline water electrolysis
Ahn SH, Park HY, Choi I, Yoo SJ, Hwang SJ, Kim HJ, Cho E, Yoon CW, Park H, Son H, Hernandez JM, Nam SW, Lim TH, Kim SK, Jang JH |
| 13502 - 13510 |
Energy consumption in iodine section of I-S: Effect of operating parameters of electro-electrodialysis on overall efficiency of cycle
Misra P, Sow PK, Shukla A |
| 13511 - 13519 |
Hydrogen generation during the corrosion of carbon steel in crotonic acid and using some organic surfactants to control hydrogen evolution
Deyab MA |
| 13520 - 13528 |
Production of an Mg/Mg2Ni lamellar composite for generating H-2 and the recycling of the post-H-2 generation residue to nickel powder
Li SL, Lin HM, Uan JY |
| 13529 - 13540 |
Pd/NiO core/shell nanoparticles on La0.02Na0.98TaO3 catalyst for hydrogen evolution from water and aqueous methanol solution
Husin H, Su WN, Pan CJ, Liu JY, Rick J, Yang SC, Chuang WT, Sheu HS, Hwang BJ |
| 13541 - 13546 |
Photocatalytic hydrogen production over CuO and TiO2 nanoparticles mixture
Kum JM, Yoo SH, Ali G, Cho SO |
| 13547 - 13555 |
The activity of the Synechocystis PCC6803 AbrB2 regulator of hydrogen production can be post-translationally controlled through glutathionylation
Sakr S, Dutheil J, Saenkham P, Bottin H, Leplat C, Ortega-Ramos M, Aude JC, Chapuis V, Guedeney G, Decottignies P, Lemaire S, Cassier-Chauvat C, Chauvat F |
| 13556 - 13563 |
Improving conversion efficiency of solar energy to electricity in cyanobacterial PEMFC by high levels of photo-H-2 production
Chen M, Zhang ZY, Wang C, Zhang L, Li JH, Chang S, Mao ZQ, Li SZ |
| 13564 - 13571 |
Buffering and nutrient effects of white mud from ammonia-soda process on thermophilic hydrogen fermentation from food waste
Zhang JS, Wang QQ |
| 13572 - 13578 |
Hydrogen production by an anaerobic photocatalytic reforming using palladium nanoparticle on boron and nitrogen doped TiO2 catalysts (Retracted article. See vol. 39, pg. 11830, 2014)
Ramalingam RJ, Kannan AM |
| 13579 - 13586 |
Synthesis of nickel nanoparticles with excellent thermal stability in micropores of zeolite
Inokawa H, Maeda M, Nishimoto S, Kameshima Y, Miyake M, Ichikawa T, Kojima Y, Miyaoka H |
| 13587 - 13595 |
Manganese molybdate and its Fe-substituted products as new efficient electrocatalysts for oxygen evolution in alkaline solutions
Srirapu VKVP, Kumar M, Awasthi R, Singh RN, Sinha ASK |
| 13596 - 13603 |
Improved catalysts for hydrogen/deuterium exchange reactions
Ye LS, Luo DL, Yang W, Guo WS, Xu QY, Jiang CL |
| 13604 - 13610 |
Heterostructure core PdSn-SnO2 decorated by Pt as efficient electrocatalysts for ethanol oxidation
Wang RF, Liu ZY, Ma YJ, Wang H, Linkov V, Ji S |
| 13611 - 13616 |
Carbon supported MnOx-Co3O4 as cathode catalyst for oxygen reduction reaction in alkaline media
Wang Y, Ma XY, Lu LJ, He YD, Qi XJ, Deng YQ |
| 13617 - 13630 |
Process simulation and optimization of methanol production coupled to tri-reforming process
Zhang YS, Cruz J, Zhang SJ, Lou HH, Benson TJ |
| 13631 - 13642 |
High performance of Mg-La mixed oxides supported Ni catalysts for dry reforming of methane: The effect of crystal structure
Ni J, Chen LW, Lin JY, Schreyer MK, Wang Z, Kawi S |
| 13643 - 13648 |
Effect of gas temperature on partial oxidation of methane in plasma reforming
Jo S, Lee DH, Song YH |
| 13649 - 13654 |
The effect of preparation method on the catalytic performance over superior MgO-promoted Ni-Ce0.8Zr0.2O2 catalyst for CO2 reforming of CH4
Jeong DW, Jang WJ, Shim JO, Roh HS, Son IH, Lee SJ |
| 13655 - 13663 |
CO2 capture using carbide slag modified by propionic acid in calcium looping process for hydrogen production
Sun RY, Li YJ, Zhao JL, Liu CT, Lu CM |
| 13664 - 13672 |
Enhanced dormancy due to para-to-ortho hydrogen conversion in insulated cryogenic pressure vessels for automotive applications
Peng JK, Ahluwalia RK |
| 13673 - 13679 |
Co-adsorption of hydrogen and CO on Pt film: An in-situ ATR-IR study combined with DFT calculations
Feng XX, Yao ML, Hu X, Hu GS, Jia AP, Xie GQ, Lu JQ, Luo MF |
| 13680 - 13686 |
First-principles study of H-2 adsorption on the pristine and oxidized (8,0) carbon nanotube
Horastani ZK, Hashemifar SJ, Sayedi SM, Sheikhi MH |
| 13687 - 13693 |
Entropy generation and its relation to heating and cooling requirements of a metal hydride hydrogen storage reactor
Patil SD, Gopal MR |
| 13694 - 13701 |
Kinetics of mechanically activated disproportionation of NdFeB alloy during reactive milling in hydrogen: Experimental studies, mechanism and modelling
Liu XY, Hu LX, Mei Y |
| 13702 - 13716 |
Economic impact of performances degradation on the competitiveness of energy storage technologies - Part 2: Application on an example of PV production guarantee
Guinot B, Bultel Y, Montignac F, Riu D, Borgne INL |
| 13717 - 13727 |
Significant effects of graphite fragments on hydrogen storage performances of LiBH4: A first-principles approach
Zhang YH, Ding H, Liu C, Zhang SL, Huang SP |
| 13728 - 13733 |
Hydrogen absorption of catalyzed magnesium below room temperature
Kimura T, Miyaoka H, Ichikawa T, Kojima Y |
| 13734 - 13741 |
Preparation of a novel Pd/layered double hydroxide composite membrane for hydrogen filtration and characterization by thermal cycling
Chi YH, Uan JY, Lin MC, Lin YL, Huang JH |
| 13742 - 13753 |
Influence of catalyst layer polybenzimidazole molecular weight on the polybenzimidazole-based proton exchange membrane fuel cell performance
Su PH, Lin HL, Lin YP, Yu TL |
| 13754 - 13761 |
Highly uniform platinum nanoparticles supported on graphite nanoplatelets as a catalyst for proton exchange membrane fuel cells
Xia GQ, Huang CD, Wang YX |
| 13762 - 13773 |
In-situ studies of gas phase composition and anode surface temperature through a model DIR-SOFC steam-methane reformer at 973.15 K
Saunders JEA, Davy MH |
| 13774 - 13780 |
Pressurized testing of a planar solid oxide fuel cell stack
Burke AA, Carreiro LG, Izzo JR |
| 13781 - 13791 |
Performance of a biohydrogen solid oxide fuel cell
Razbani O, Assadi M |
| 13792 - 13801 |
Sulfonated graphene oxide/Nafion composite membranes for high-performance direct methanol fuel cells
Chien HC, Tsai LD, Huang CP, Kang CY, Lin JN, Chang FC |
| 13802 - 13811 |
Experimental and numerical studies of the effects of hydrogen addition on the structure of a laminar methane-nitrogen jet in hot coflow under MILD conditions
Sepman A, Abtahizadeh E, Mokhov A, van Oijen J, Levinsky H, de Goey P |
| 13812 - 13821 |
Effect of N-2/CO2 dilution on laminar burning velocity of H-2-air mixtures at high temperatures
Paidi SK, Bhavaraju A, Akram M, Kumar S |
| 13822 - 13830 |
Hydrogen microscopy - Distribution of hydrogen in buckled niobium hydrogen thin films
Wagner S, Moser M, Greubel C, Peeper K, Reichart P, Pundt A, Dollinger G |
| 13831 - 13841 |
Hydrogen induced cracking susceptibility in different layers of a hot rolled X70 pipeline steel
Mohtadi-Bonab MA, Szpunar JA, Razavi-Tousi SS |
| 13842 - 13844 |
Comments on "Reduction in carbon dioxide and production of methane by biological reaction in the electronics industry" by Kim et al., International Journal of Hydrogen Energy 2013;38:3488-3496
Liu RB, Hao XD, Hu YS |
