Keyphrases
Dielectrophoresis
90%
Microfluidics
76%
Point-of-care
70%
Nanopore
68%
Rapid Detection
67%
Microfluidic Biochip
67%
Single-stranded DNA (ssDNA)
64%
Biochip
61%
Cantilever
60%
Microfluidic Device
60%
Whole Blood
59%
Micro-fabricated
57%
Micro-electro-mechanical Systems
56%
Dielectrophoretic
56%
Limit of Detection
54%
Field-effect Transistors
50%
Three-dimensional (3D)
49%
Transistor
49%
On chip
49%
Label-free
49%
Listeria Monocytogenes
48%
Biological Machines
47%
Nanopore Sensor
47%
Selective Epitaxial Growth
47%
Biological Objects
47%
Electrical Detection
46%
Virus
46%
Electric Field (E-field)
42%
Sepsis
42%
COVID-19
42%
Hybrid System
41%
Silicon Cantilever
41%
Virus-like Particles
40%
Self-assembly
40%
Dielectrophoretic Force
39%
Smartphone
39%
Microorganisms
39%
Solid-state Nanopore
39%
Microfluidic chip
38%
Sensitive Detection
38%
Living Cells
37%
Stereolithography
37%
Skeletal muscle
36%
Bacterial Cells
36%
Oxides
36%
Reverse Transcription Loop-mediated Isothermal Amplification (RT-LAMP)
35%
Fabrication Methods
35%
Biomolecules
34%
Graphene
34%
Multiplex Detection
33%
Engineering
Nanoscale
100%
Microscale
87%
Microelectromechanical System
81%
Biosensor
79%
Field-Effect Transistor
78%
Hydrogel
60%
Fluidics
60%
Microfluidic Device
59%
Electric Field
54%
Tissue Engineering
43%
Engineering
42%
Dielectrics
41%
Listeria
38%
Biosensing
37%
Resonant Sensor
35%
Cantilever Beam
34%
Silicon on Insulator
34%
Cardiomyocytes
33%
Bipolar Transistor
32%
Robot
32%
Nanowires
31%
Flow Rate
31%
Biomolecule
30%
Biomedical Application
30%
Graphene
29%
Realization
28%
Resonator
26%
Individual Cell
26%
Experimental Result
26%
Isothermal
26%
DNA-DNA Hybridization
25%
Microfluidic Channel
25%
Bioengineering
24%
Polysilicon
24%
Side Wall
24%
Diamond
24%
Actuation
24%
Micro-Electro-Mechanical System
23%
Microstructure
22%
Resonant Frequency
22%
Microcantilevers
22%
Cell Mass
22%
Fluid Viscosity
22%
Living System
21%
Nanoparticle
21%
Biofabrication
20%
Nanometre
20%
Metal-Oxide-Semiconductor Field-Effect Transistor
20%
Live Cell
20%
Subsystems
19%