| 3743 - 3743 |
Application of Green Chemistry in Energy Production
Fan MH, Wang JJ, Ettema R, Northam MA, Hansen AC, Argyle MD, Shen YQ, Radosz M |
| 3744 - 3749 |
Hydrolysis of Tetrafluoroborate and Hexafluorophosphate Counter Ions in Imidazolium-Based Ionic Liquids
Freire MG, Neves CMSS, Marrucho IM, Coutinho JAP, Fernandes AM |
| 3750 - 3755 |
Model Study on Transesterification of Soybean Oil to Biodiesel with Methanol Using Solid Base Catalyst
Liu XJ, Piao XL, Wang YJ, Zhu SL |
| 3756 - 3763 |
Effect of the Previous Composting on Volatiles Production during Biomass Pyrolysis
Barneto AG, Carmona JA, Blanco MJD |
| 3764 - 3772 |
Performance of PrBaCo2O5+delta as a Proton-Conducting Solid-Oxide Fuel Cell Cathode
Lin Y, Ran R, Zhang CM, Cai R, Shao ZP |
| 3773 - 3781 |
Effects of Potassium on Ni-K/Al2O3 Catalysts in the Synthesis of Carbon Nanofibers by Catalytic Hydrogenation of CO2
Chen CS, Lin JH, You JH, Yang KH |
| 3782 - 3787 |
Thermochemistry of Alkyl Pyridinium Bromide Ionic Liquids: Calorimetric Measurements and Calculations
Tong B, Liu QS, Tan ZC, Welz-Biermann U |
| 3788 - 3795 |
Thermodynamic Data for the Modeling of the Thermal Decomposition of Biodiesel. 1. Saturated and Monounsaturated FAMEs
Osmont A, Catoire L, Dagaut P |
| 3796 - 3801 |
Changing the Oxygen Mobility in Co/Ceria Catalysts by Ca Incorporation: Implications for Ethanol Steam Reforming
Song H, Ozkan US |
| 3802 - 3810 |
Destruction of SO2 on An and Cu Nanoparticles Dispersed on MgO(100) and CeO2(111)
Rodriguez JA, Liu P, Perez M, Liu G, Hrbek J |
| 3811 - 3817 |
Kinetics of Liquid Phase Catalytic Hydrogenation of Dicyclopentadiene over Pd/C Catalyst
Hao ML, Yang BL, Wang HG, Liu G, Qi ST, Yang JM, Li CY, Lv J |
| 3818 - 3823 |
Influences of Precipitate Rinsing Solvents on Ni Catalyst for Methane Decomposition to CO2-free Hydrogen
Zhang W, Ge QJ, Xu HY |
| 3824 - 3833 |
Low-Temperature Hydrogen Production by Highly Efficient Catalytic System Assisted by an Electric Field
Sekine Y, Haraguchi M, Tomioka M, Matsukata M, Kikuchi E |
| 3834 - 3844 |
Approaching Sustainable H-2 Production: Sorption Enhanced Steam Reforming of Ethanol
He L, Berntsen H, Chen D |
| 3845 - 3854 |
Role of Lattice Oxygen of Metal Oxides in the Dehydrogenation of Ethylbenzene under a Carbon Dioxide Atmosphere
Saito K, Okuda K, Ikenaga N, Miyake T, Suzuki T |
| 3855 - 3862 |
Modification of Coal as a Fuel for the Direct Carbon Fuel Cell
Li X, Zhu ZH, De Marco R, Bradley J, Dicks A |
| 3863 - 3872 |
Catalytic Coupling of CO2 with Epoxide Over Supported and Unsupported Amines
Yu KMK, Curcic I, Gabriel J, Morganstewart H, Tsang SC |
| 3873 - 3882 |
Mechanistic Aspects of the Ethanol Steam Reforming Reaction for Hydrogen Production on Pt, Ni, and PtNi Catalysts Supported on gamma-Al2O3
Sanchez-Sanchez MC, Yerga RMN, Kondarides DI, Verykios XE, Fierro JLG |
| 3883 - 3887 |
Rapid Quantitative Analytical Tool for Characterizing the Preparation of Biodiesel
Nagy M, Foston M, Ragauskas AJ |
| 3888 - 3895 |
Methanol Synthesis from H-2 and CO2 on a Mo6S8 Cluster: A Density Functional Study
Liu P, Choi Y, Yang YX, White MG |
| 3896 - 3908 |
Chemical Kinetic Study of the Oxidation of a Biodiesel-Bioethanol Surrogate Fuel: Methyl Octanoate-Ethanol Mixtures
Togbe C, May-Carle JB, Dayma G, Dagaut P |
| 3909 - 3915 |
CO-Free Hydrogen Production for Fuel Cell Applications over Au/CeO2 Catalysts: FTIR Insight into the Role of Dopant
Tabakova T, Manzoli M, Vindigni F, Idakiev V, Boccuzzi F |
| 3916 - 3925 |
CuOx-TiO2 Photocatalysts for H-2 Production from Ethanol and Glycerol Solutions
Gombac V, Sordelli L, Montini T, Delgado JJ, Adamski A, Adami G, Cargnello M, Bernal S, Fornasiero P |
| 3926 - 3931 |
The Enhanced Dissolution beta-Cyclodextrin in Some Hydrophilic Ionic Liquids
Zheng Y, Xuan XP, Wang JJ, Fan MH |
| 3932 - 3938 |
Combining Homogeneous Catalysis with Heterogeneous Separation using Tunable Solvent Systems
Blasucci VM, Husain ZA, Fadhel AZ, Donaldson ME, Vyhmeister E, Pollet P, Liotta CL, Eckert CA |
| 3939 - 3949 |
Utilization of High Specific Surface Area CuO-CeO2 Catalysts for High Temperature Processes of Hydrogen Production: Steam Re-forming of Ethanol and Methane Dry Re-forming
Djinovic P, Batista J, Cehic B, Pintar A |
| 3950 - 3955 |
Potential of Nano-ZnS as Electrocatalyst
Bredol M, Kaczmarek M |
| 3956 - 3961 |
Application of Green Chemistry Techniques to Prepare Electrocatalysts for Direct Methanol Fuel Cells
Shimizu K, Wang JS, Wai CM |
| 3962 - 3968 |
Preparation of Multiwalled Carbon Nanotube-Supported Nickel Catalysts Using Incipient Wetness Method
Azadi P, Farnood R, Meier E |
| 3969 - 3980 |
Surface and Catalytic Elucidation of Rh/gamma-Al2O3 Catalysts during NO Reduction by C3H8 in the Presence of Excess O-2, H2O, and SO2
Pekridis G, Kaklidis N, Komvokis V, Athanasiou C, Konsolakis M, Yentekakis IV, Marnellos GE |
| 3981 - 3989 |
Impact of the Incorporation of Au Nanoparticles into Polymer/Fullerene Solar Cells
Topp K, Borchert H, Johnen F, Tune AV, Knipper M, von Hauff E, Parisi J, Al-Shamery K |
| 3990 - 3996 |
Structure of 1-Butylpyridinium Tetrafluoroborate Ionic Liquid: Quantum Chemistry and Molecular Dynamic Simulation Studies
Sun H, Qiao BF, Zhang DJ, Liu CB |
| 3997 - 4002 |
Competition of Sulphation and Carbonation Reactions during Looping Cycles for CO, Capture by CaO-Based Sorbents
Manovic V, Anthony EJ |
| 4003 - 4008 |
Effects of Pressure on the Recovery of CO2 by Phase Transition from a eawater System by Means of Multilayer Gas Permeable Membranes
Willauer HD, Hardy DR, Lewis NK, Ndubizu EC, Williams FW |
| 4009 - 4016 |
Evaluation of Different Dielectric Barrier Discharge Plasma Configurations As an Alternative Technology for Green C-1 Chemistry in the Carbon Dioxide Reforming of Methane and the Direct Decomposition of Methanol
Rico VJ, Hueso JL, Cotrino J, Gonzalez-Elipe AR |
