Synthesis and characterization of n-alkylamine-stabilized palladium nanoparticles for electrochemical oxidation of methane

Engineering & Materials Science

• Electrochemical oxidation 100%
• Palladium 80%
• Nanoparticles 60%
• Methane 56%
• Chain length 23%
• Nuclear magnetic resonance 19%
• X ray photoelectron spectroscopy 13%
• Molar ratio 13%
• Atomic absorption spectrometry 10%
• Chronoamperometry 9%
• Chlorine compounds 8%
• Electrodes 8%
• Nuclear magnetic resonance spectroscopy 8%
• Absorption spectroscopy 8%
• X ray powder diffraction 8%
• Carbon 8%
• Cyclic voltammetry 7%
• Hexane 7%
• Infrared spectroscopy 7%
• Ligands 7%
• Mass spectrometry 7%
• Toluene 6%
• Benzene 6%
• Amines 6%
• Thermogravimetric analysis 6%
• Transmission electron microscopy 5%
• Graphite 5%
• Particle size 5%

Physics & Astronomy

• electrochemical oxidation 92%
• palladium 65%
• methane 55%
• synthesis 43%
• nanoparticles 41%
• characterization 33%
• nuclear magnetic resonance 13%
• photoelectron spectroscopy 9%
• x rays 7%
• carbon 7%
• proton magnetic resonance 7%
• chloroform 6%
• electrodes 6%
• amines 6%
• toluene 5%
• spectroscopy 5%
• ligands 5%
• benzene 5%
• mass spectroscopy 5%
• absorption spectroscopy 5%
• furnaces 5%

Chemical Compounds

• Palladium Nanoparticle 71%
• Electrochemical Oxidation 60%
• Methane 48%
• Length 13%
• Nanoparticle 11%
• X-Ray Photoelectron Spectroscopy 10%
• Graphite Furnace Atomic Absorption Spectrometry 9%
• Nanoparticle Size 8%
• Chronoamperometry 8%
• Electrochemical Reaction 7%
• Behavior as Electrode 7%
• Carbon Atom 7%
• 1H NMR Spectrum 6%
• Chloroform 6%
• 1H NMR Spectroscopy 6%
• Powder X-Ray Diffraction 5%
• Toluene 5%
• Thermogravimetric Analysis 5%
• Cyclic Voltammetry 5%
• Benzene 5%
• IR Spectroscopy 5%
• Mass Spectrometry 5%
• Transmission Electron Microscopy 5%