![]() Belashchenko, Computer Simulation of the Properties of Liquid Metals: Gallium, Lead, and Bismuth. Wadley, Misfit-energy-increasing dislocations in vapor-deposited CoFe/NiFe multilayers, Phys. Muffato, Modeling metallic nanoparticle synthesis in a magnetron-based nanocluster source by gas condensation of a sputtered vapor, J. Mikikian et al., PdPt catalyst synthesized using a gas aggregation source and magnetron sputtering for fuel cell electrodes, J. Okamoto, The Bi-Pt (Bismuth-Platinum) System, J. Berndt et al., Molecular dynamics simulations of ternary PtxPdyAuz fuel cell nanocatalyst growth, Int. Neyts, Molecular dynamics simulations of supported metal nanocatalyst formation by plasma sputtering, Catal. Wojdyr, Fityk: a general-purpose peak fitting program, J. Coutanceau, Enhancement of catalytic properties for glycerol electrooxidation on Pt and Pd nanoparticles induced by Bi surface modification, Applied Catalysis B: Environmental, vol. Disalvo, Synthesis, Characterization, and Electrocatalytic Activity of PtBi Nanoparticles Prepared by the Polyol Process, vol. AbrunĂ£, Electrocatalytic Activity of Ordered Intermetallic Phases for Fuel Cell Applications, J. Artyushkova et al., Self-Supported PdxBi Catalysts for the Electrooxidation of Glycerol in Alkaline Media, J. Baiker, Oxidation of alcohols with molecular oxygen on platinum metal catalysts in aqueous solutions, Catal. Coutanceau, Highly efficient and selective electrooxidation of glucose and xylose in alkaline medium at carbon supported alloyed PdAu nanocatalysts Li, Electrocatalytic oxidation of glycerol on Pt/C in anion-exchange membrane fuel cell: Cogeneration of electricity and valuable chemicals, Appl. ![]() Coutanceau, Development of Bi-Modified PtPd Nanocatalysts for the Electrochemical Reforming of Polyols into Hydrogen and Value-Added Chemicals, ChemElectroChem, vol. Filippi et al., Nanotechnology makes biomass electrolysis more energy efficient than water electrolysis, Nature Comm, vol. Coutanceau, Electrochemical Valorisation of Glycerol, vol. Lavacchi et al., Selfsustainable production of hydrogen, chemicals, and energy from renewable alcohols by electrocatalysis, ChemSusChem, vol. Kielyc et al., Oxidation of glycerol using supported gold catalysts, Top. Devillers, Au-Pd/C catalysts for glyoxal and glucose selective oxidations, ACS Sustainable Chem. Lindner, Improved utilisation of renewable resources: New important derivatives of glycerol, Green Chem, vol. Iborra, Converting carbohydrates to bulk chemicals and fine chemicals over heterogeneous catalysts, Green Chem, vol. Gallezot, Selective oxidation with air on metal catalysts, Catal. Pagliaro, Understanding the glycerol market, Eur. Suppes, Low-pressure hydrogenolysis of glycerol to propylene glycol, Appl. Bakir, Evaluation of alkaline pretreatment temperature on a multi-product basis for the co-production of glucose and hemicellulosebased films from lignocellulosic biomass, Bioresour. Dhepe, Solid base supported metal catalysts for the oxidation and hydrogenation of sugars, J. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |