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%