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Metal sulfides for gas sensing applications: devices and mechanisms
Hongyu Tang
Electronic Components, Technology and Materials
Research output
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Thesis
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Dissertation (TU Delft)
64
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Dive into the research topics of 'Metal sulfides for gas sensing applications: devices and mechanisms'. Together they form a unique fingerprint.
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INIS
applications
100%
metals
100%
devices
100%
sulfides
100%
gases
100%
sensors
77%
nitrogen dioxide
45%
tin sulfides
41%
performance
29%
heterojunctions
25%
transistors
22%
humidity
22%
adsorption
12%
density functional method
12%
detection
12%
strains
12%
sensitivity
9%
oxides
9%
semiconductor materials
9%
molecules
9%
ammonia
9%
surfaces
6%
oxygen
6%
air
6%
field effect transistors
6%
energy
6%
breath
6%
range
6%
optical properties
6%
interfaces
6%
absorption
6%
ultraviolet radiation
6%
monitoring
6%
comparative evaluations
6%
recovery
6%
tin oxides
6%
liquids
6%
barriers
6%
vacancies
6%
increasing
3%
electrons
3%
wavelengths
3%
valence
3%
levels
3%
substrates
3%
modulation
3%
air quality
3%
nanostructures
3%
reactivity
3%
demand
3%
voltage
3%
oxidation
3%
values
3%
fabrication
3%
p-n junctions
3%
mobility
3%
transition metals
3%
semiconductor junctions
3%
vapors
3%
layers
3%
reliability
3%
shape
3%
air flow
3%
schottky barrier diodes
3%
crystal structure
3%
peaks
3%
holes
3%
nanocomposites
3%
defects
3%
crystals
3%
synthesis
3%
chemical vapor deposition
3%
specific surface area
3%
respiration
3%
thin films
3%
water
3%
reviews
3%
alignment
3%
stability
3%
chemical composition
3%
fingers
3%
concentration
3%
doped materials
3%
environment
3%
size
3%
nanomaterials
3%
charges
3%
electric fields
3%
stimulation
3%
signals
3%
trace amounts
3%
fermi level
3%
Engineering
Sensing Application
100%
Gas Sensor
100%
Mechanisms
100%
Sensor
83%
Heterostructures
83%
Sensing Performance
58%
Density
33%
Schottky Barrier
25%
Nanosheet
25%
Fields
25%
Semiconductor
25%
Energy Gap
16%
Fast Response
16%
Field-Effect Transistor
16%
Oxygen Vacancy
16%
Experiments
16%
Gas Molecule
16%
Mechanical Strain
16%
Humidity Sensor
16%
Flexible Substrate
8%
Term Stability
8%
Dopants
8%
Potential Application
8%
Demonstrates
8%
Nanocomposite
8%
Gate Voltage
8%
Electronics
8%
Subthreshold Slope
8%
Gate Bias
8%
Repeatability
8%
Wavelength
8%
Air Flow
8%
Sensing Mechanisms
8%
Thin-Film Transistor
8%
Specific Surface Area
8%
External Electric Field
8%
Recovery Time
8%
Metal Contact
8%
Defects
8%
Wide Bandgap Semiconductor
8%
Air Quality
8%
Crystal Structure
8%
Interface Layer
8%
Maximum Response
8%
Recovery
8%
Alignment
8%
Synthesis Method
8%
Analysis Theory
8%
2D Nanomaterials
8%
Increasing Demand
8%
Compressive Strain
8%
Nanomaterial
8%
Fabrication Method
8%
Quality Material
8%
High Quality
8%
Dry Air
8%
Fermi Level
8%
Shallower
8%
Early Stage
8%
Material Science
Metal
100%
Devices
100%
Gas
100%
Heterojunction
94%
Nitrogen Dioxide
73%
Transistor
31%
Density
21%
Air
21%
Adsorption
21%
Metal Oxide
15%
Semiconductor Material
15%
Field Effect Transistor
10%
Liquid
10%
Oxygen Vacancy
10%
Optical Property
10%
Crystal Structure
5%
Device Fabrication
5%
Water
5%
Chemical Vapor Deposition
5%
Doping (Additives)
5%
Surface Area
5%
Vapor
5%
Transition Metal
5%
Schottky Diode
5%
Nanocrystalline Material
5%
Electronic Property
5%
Crystalline Material
5%
Oxidation Reaction
5%
Nanocomposites
5%
Conductivity
5%