Keyphrases
Attomolar Level
50%
Biomaterials
50%
Carrier Mobility
50%
Clinical Samples
50%
Directed Self-assembly
50%
DNA Biosensor
50%
DNA Sequence Classification
50%
DNA Strands
50%
Effective Capacitance
50%
EGFET
100%
Energy Level Alignment
50%
Excellent Performance
50%
Excellent Selectivity
50%
Extended Gate
100%
FET Devices
50%
Field-effect Transistor Sensor
100%
Field-effect Transistors
100%
GaN Nanowires
100%
GaN Surface
50%
GaN Thin Film
50%
High Sensitivity
50%
Hotspot mutation
50%
Hybrid Interface
50%
In Situ
100%
In Situ Conditions
50%
In Situ Study
50%
Label-free
50%
Label-free DNA Detection
100%
Limit of Detection
50%
Low Detection Limit
50%
Nanomaterials
50%
Order of Magnitude
50%
P53 Tumor Suppressor Gene
50%
Semiconducting Nature
50%
Semiconductor Hybrids
50%
Sensor Architecture
50%
Simple Sensor
50%
Specific DNA Sequence
50%
Surface Sensitivity
50%
Transistor Biosensor
50%
Ultra-high
50%
Ultrasensitive
100%
Wide Bandgap
50%
Wide Detection Range
50%
Engineering
Biosensor
50%
Carrier Mobility
50%
Detection Limit
100%
Detection Range
50%
Energy Band
50%
Field Effect Transistor
100%
Field-Effect Transistor
100%
Illustrates
50%
Nanomaterial
50%
Nanowires
100%
Situ Study
50%
Strand
50%
Suppressor
50%
Thin Films
50%
Chemistry
Band Gap
33%
Biomaterial
33%
Deoxyribonucleic Acid
100%
DNA Sequence
33%
Field Effect
100%
Label
100%
Liquid Film
33%
Nanomaterial
33%
Nanowires
100%
Material Science
Biomaterial
33%
Capacitance
33%
Carrier Mobility
33%
DNA Sequence
33%
Field Effect Transistor
100%
Nanocrystalline Material
33%
Nanowire
100%
Thin Films
33%
Transistor
66%
Tumor
33%