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Graphene-based tunable plasmonic metamaterials for nitric oxide in breath-sensing application
Pei Jung Wu, Jing Ting Hung, Cho Fan Hsieh,
Chii Rong Yang
*
,
Chan Shan Yang
*
此作品的通信作者
機電工程學系
光電工程研究所
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humans
100%
applications
100%
graphene
100%
nitric oxide
100%
breath
100%
metamaterials
100%
layers
75%
concentration
50%
range
50%
sensors
50%
peaks
50%
diseases
25%
risks
25%
volume
25%
lungs
25%
surfaces
25%
detection
25%
patients
25%
sensitivity
25%
volatility
25%
gases
25%
skin
25%
ultraviolet radiation
25%
titanium oxides
25%
zinc
25%
adsorption
25%
organs
25%
organic compounds
25%
split-ring resonators
25%
Engineering
Research
100%
Terahertz
100%
Plasmonics
100%
Sensor
100%
Sensing Application
100%
Electronics
50%
Development
50%
Detection
50%
Titanium Oxide
50%
Surfaces
50%
Physical Phenomenon
50%
High Temperature
50%
Human Skin
50%
Compound Layer
50%
Adsorption of Gases
50%
Physics
Graphene
100%
Nitric Oxide
100%
Metamaterial
100%
Volume
25%
Frequencies
25%
Existence
25%
High Temperature
25%
Lung
25%
Region
25%
Gaseous State
25%
Visible Spectrum
25%
Volatile Organic Compound
25%
Physical Phenomena
25%
Titanium Dioxide
25%
Adsorption
25%
Organ
25%
Material Science
Oxide
100%
Graphene
100%
Plasmonic Metamaterials
100%
Metamaterial
50%
Surface
25%
Temperature
25%
Gas
25%
Adsorption
25%
Resonator
25%
Electronic Component
25%
Nursing and Health Professions
Electronic Sensor
33%
Exhaled Nitric Oxide
33%
Titanium Dioxide
33%
Volatile Organic Compound
33%
Medicine and Dentistry
Organ Systems
25%
Titanium Dioxide
25%
Volatile Organic Compound
25%