On the state of Mn in Mn_xZn_1−xO nanoparticles and their surface modification with isonipecotic acid

Ingeniería y ciencia de los materiales

• Surface treatment 100%
• Atoms 98%
• Nanoparticles 94%
• Acids 86%
• X ray photoelectron spectroscopy 77%
• Transmission electron microscopy 65%
• Molecules 62%
• Electron energy loss spectroscopy 56%
• ZnO nanoparticles 49%
• Photoelectrons 49%
• X ray analysis 47%
• Coprecipitation 47%
• Crystallite size 46%
• Ligands 42%
• Nanostructured materials 39%
• Nanostructures 38%
• Manganese 37%
• Solid solutions 35%
• Doping (additives) 35%
• Crystalline materials 33%
• Electrons 31%
• X ray diffraction 31%
• Elongation 29%
• X rays 28%
• Energy dissipation 27%
• Availability 22%
• Chemical analysis 20%

Física y astronomía

• acids 85%
• nanoparticles 64%
• energy dissipation 50%
• atoms 48%
• electron energy 47%
• carboxylates 44%
• x rays 42%
• transmission electron microscopy 41%
• conjugation 37%
• cells 34%
• molecules 33%
• availability 32%
• ligands 32%
• manganese 31%
• wurtzite 31%
• elongation 29%
• photoelectrons 28%
• crystallites 27%
• solid solutions 26%
• diffraction 16%
• spectroscopy 16%
• energy 9%

Química

• Surface Modification 81%
• Nanoparticle 47%
• Manganese Atom 45%
• Transmission Electron Microscopy 41%
• Nanomaterial 40%
• Electron Energy Loss Spectroscopy 38%
• X-Ray Photoelectron Spectrum 35%
• Acid 33%
• Photoelectron 32%
• Energy 29%
• Peroxidase 28%
• Coprecipitation 27%
• Solid Solution 26%
• Crystallite 26%
• Molecule 22%
• Molecular Cluster 20%
• X-Ray 19%
• Electron Particle 17%
• X-Ray Diffraction 15%
• Ligand 13%
• Surface 10%