INIS
hydrogenation
100%
covid-19
100%
metamaterials
100%
boron phosphides
100%
rings
66%
microstructure
50%
applications
33%
spectra
33%
transmission
33%
length
33%
electric fields
33%
increasing
16%
electrons
16%
sensitivity
16%
ghz range
16%
finite element method
16%
density functional method
16%
resonance
16%
values
16%
red shift
16%
coupling
16%
mobility
16%
carrier mobility
16%
nanoelectronics
16%
variations
16%
carrier density
16%
holes
16%
performance
16%
engineering
16%
Material Science
Biosensor
100%
Boron
100%
Metamaterial
100%
Microstructure
75%
Monolayers
50%
Finite Element Method
25%
Carrier Concentration
25%
Nanoelectronics
25%
Density
25%
Carrier Mobility
25%
Physics
Density Functional Theory
100%
Metamaterial
100%
Transmission Spectrum
50%
Utilization
50%
Electric Fields
50%
Independent Variables
25%
Red Shift
25%
Chemical Engineering
Boron
100%
Hydrogenation
50%