INIS
sensors
100%
sensitivity
92%
cobalt
84%
cellulose
84%
applications
84%
architecture
84%
carbon dioxide
84%
zinc oxides
84%
doped materials
84%
nanostructures
84%
temperature range 0273-0400 k
84%
nanocomposites
84%
synthesis
84%
thin films
28%
water
23%
layers
23%
morphology
18%
sputtering
18%
gases
18%
power
18%
composite materials
15%
interactions
15%
recovery
9%
glass
9%
substrates
9%
x-ray diffraction
9%
hall effect
9%
carriers
9%
magnetrons
9%
surfaces
9%
roughness
9%
chemical composition
9%
powders
9%
matrices
9%
atomic force microscopy
9%
cobalt ions
9%
optical properties
9%
mobility
9%
strains
9%
performance
9%
concentration
9%
scanning (electron)
9%
radiowave radiation
9%
deposition
9%
values
9%
hydrogen
7%
energy
7%
supercapacitors
7%
flexibility
7%
comparative evaluations
7%
space
7%
membranes
7%
absorption
7%
shielding
7%
capacity
7%
bacteria
7%
hydrogels
7%
films
7%
interference
7%
efficiency
7%
healing
7%
porosity
7%
hypothesis
7%
liquids
7%
coatings
7%
wounds
7%
Material Science
Sensitivity Enhancement
84%
Nanorod
84%
Carbon Dioxide
84%
ZnO
84%
Cobalt
84%
Thin Films
28%
Optical Property
9%
Cobalt Ion
9%
X-Ray Diffraction
9%
Diffraction Pattern
9%
Surface Roughness
9%
Carrier Concentration
9%
Hall Mobility
9%
Cobalt(II,III) Oxide
9%
Magnetron Sputtering
9%
Powder
9%
Electromagnetic Interference Shielding
6%
Keyphrases
CO2 Sensor
84%
Cobalt Doped ZnO
84%
Doped ZnO Thin Films
36%
ZnO Sensor
12%
Co3O4 Powder
12%
ZnO Matrix
12%
ZnO Powder
12%
CO2 Target
12%
Co Ion
12%
Sputtering Power
12%
Gas Response
12%
Bacterial Cellulose Composites
8%
Electromagnetic Interference Shielding Effectiveness (EMI SE)
8%
Multilayer MXene
8%
Cellulose Coating
8%
Cellulose-based Composites
8%