INIS
aloe
22%
ammonia
50%
applications
29%
atmospheric pressure
36%
carbon nanotubes
58%
carbonyls
23%
cassava
16%
catalysis
25%
chemical vapor deposition
83%
concentration
38%
configuration
8%
detection
72%
electron microscopy
25%
epoxides
23%
films
25%
gases
75%
growth
54%
heat treatments
16%
heating
8%
humidity
18%
hydrogen
32%
impurities
8%
ions
64%
irradiation
100%
kinetic energy
100%
morphology
40%
nanomaterials
50%
nanostructures
16%
nitrogen dioxide
100%
optical properties
25%
orientation
25%
oxygen
78%
oxygen ions
58%
photoluminescence
25%
purity
25%
raman spectroscopy
25%
scanning electron microscopy
15%
sensitivity
18%
sensors
72%
stability
70%
surfaces
30%
synthesis
64%
temperature range 0273-0400 k
11%
transmission electron microscopy
15%
tungsten
50%
tungsten oxides
9%
tungsten sulfides
50%
vapors
9%
x-ray diffraction
25%
x-ray photoelectron spectroscopy
48%
Material Science
Adsorbent
7%
Carbon Nanotubes
75%
Catalysis
16%
Chemical Vapor Deposition
91%
Crystalline Material
50%
Electron Microscopy
16%
Film
16%
Hydrogen Evolution
16%
Morphology
7%
Nanocrystalline Material
50%
Nanoparticle
50%
Nanosheet
90%
Nanotubes
25%
Nanowires
7%
Nitrogen Dioxide
100%
Optical Property
16%
Oxidation Reaction
7%
Photoluminescence
16%
Raman Spectroscopy
16%
Scanning Electron Microscopy
44%
Thermal Stability
50%
Transmission Electron Microscopy
37%
Tungsten
40%
X-Ray Diffraction
23%
X-Ray Photoelectron Spectroscopy
79%
Zinc
7%
Zinc Oxide Nanoparticles
50%
ZnO
35%
Keyphrases
2H-phase
16%
2H-WSe2
12%
Aerosol-Assisted Chemical Vapor Deposition (AACVD)
10%
Aloe Vera
33%
C. X-ray Photoelectron Spectroscopy
16%
Cassava Starch
25%
Concentration Level
10%
Different Operating Temperatures
12%
Direct Integration
10%
Dual Selectivity
12%
Epoxide Group
12%
Excellent Response
12%
Gas Detection
25%
Gas Sensing Characteristics
12%
High Orientation
16%
High Resilience
12%
Ion Transmission
12%
Irradiation Parameters
12%
Long-term Stability Test
10%
Macroscopic Alignment
12%
Macroscopic Structure
12%
Morphological Composition
12%
Nanosheet-assembled
10%
Nanotriangles
10%
NH3 Gas
50%
NO2 Molecule
12%
Oxygen Groups
12%
Oxygen Ion Irradiation
50%
Ppb-level
10%
Rapid Selenization
16%
Reaction Catalysis
16%
Response Stability
12%
Selenization
12%
Sensing Performance
10%
Sensor Transducer
10%
Stability Evaluation
12%
Stable Response
10%
Structural Arrangement
12%
Three-dimensional Assembly
50%
Tungsten Diselenide
16%
Tungsten Film
16%
Ultra-low Detection Limit
10%
Ultrasensitive Detection
50%
Under-five
10%
Vapor Detection
25%
Vertically Oriented
12%
WO3 Nanorods
12%
WS 2
50%
WS2 Nanosheets
50%
WSe2
50%