INIS
devices
100%
absorption
100%
microwave radiation
100%
titanium oxides
100%
nanocomposites
100%
sintering
62%
applications
25%
permeability
25%
comparative evaluations
12%
reflection
12%
values
12%
vectors
12%
transmission
12%
nanostructures
12%
width
12%
ghz range
12%
low temperature
12%
peaks
12%
dielectric properties
12%
hydrothermal synthesis
12%
ferrites
12%
permittivity
12%
ferrite
12%
Chemistry
Microwave
100%
Nanocomposite
100%
Titanium Dioxide
100%
Microwave Absorption
100%
Sintering
83%
Application
33%
Reaction Temperature
33%
Permeability
33%
Substitution Reaction
16%
Time
16%
Reflection
16%
Dielectric Property
16%
Hydrothermal Method
16%
Permittivity
16%
Material Science
Devices
100%
Sintering
100%
Nanocomposites
100%
Temperature
40%
Permeability
40%
Ferrite
40%
Material
20%
Permittivity
20%
Dielectric Property
20%
Hydrothermal Synthesis
20%
Physics
Microwave
100%
Sintering
62%
Temperature
25%
Technology
25%
Frequencies
12%
Value
12%
Networks
12%
Dielectric Properties
12%
Reflectance
12%
Absorption Spectra
12%
Electromagnetism
12%
Bandwidth
12%
Earth and Planetary Sciences
Microwave Absorption
100%
Sintering
83%
Dielectric Property
16%