Keyphrases
Cell Culture
100%
Oxygen Sensor
84%
Human Induced Pluripotent Stem Cell-derived Cardiomyocytes (hiPSC-CMs)
65%
Hypoxia
62%
Incubator
57%
Oxygen Concentration
52%
Fluorimetric Method
52%
In Vitro Cell Models
52%
Chemical Sensing
52%
Polystyrene Films
43%
Cytotoxicity
39%
Optical Readout
39%
Microelectrode Array
37%
Parabolic Lens
36%
Cardiomyocytes
34%
Cell-based
34%
Video-based
34%
Sensor Surface
33%
Imaging Systems
32%
Induced Pluripotent Stem Cells (iPSCs)
29%
Physiologically Relevant
27%
Cell Imaging
26%
Temperature Effect
26%
PH Monitoring
26%
Microphysiological Systems
26%
Oxygen Sensing
26%
Movement Analysis
26%
On-a-chip
26%
CO2 Incubator
26%
Luminescence Technique
26%
Mini-bioreactors
26%
Rapid Immunoassay
26%
Live Cell Imaging
26%
Surface Selective
26%
Signal Propagation
26%
Humidity
26%
Covalent Immobilization
26%
Temperature Signal
26%
Human Heart
26%
Electrophysiological Recordings
26%
Human-induced
26%
Spatiotemporal Control
26%
Mini
26%
Convertibility
26%
Oxygen Microenvironments
26%
Cardiac Ischemia
26%
Stem Cell Culture
26%
Pathophysiology
26%
Luminescence
25%
Excitation Power
24%
Engineering
Incubator
56%
Cell Model
56%
Cardiomyocytes
55%
Oxygen Concentration
52%
Surface Sensing
42%
Induced Pluripotent Stem Cell
42%
Microelectrode Array
37%
Microenvironments
34%
Imaging Systems
32%
Stem Cell
31%
Experimental Result
29%
Thin Films
29%
Live Cell
26%
Selective Surface
26%
Covalent Immobilization
26%
Temperature Response
26%
Anisotropic
26%
Enabling Technology
26%
Bioreactor
26%
Building Block
26%
Total Internal Reflection
21%
Sensing Material
20%
Microfluidic Channel
19%
Channel Structure
19%
Sensing Property
17%
Collection Efficiency
16%
Oxygen Tension
15%
Culture Condition
14%
Irradiance
13%
Biomedical Industry
13%
System Development
13%
Signal-to-Noise Ratio
13%
Sensing Method
13%
Optical Design
13%
Photodiode
13%
Fluorescence Emission
13%
Deposited Film
13%
Cardiac Cell
13%
Data Rate
13%
Radiated Power
13%
Biofouling
13%
Level Function
13%
Dissolved Oxygen Concentration
13%
Simulation Result
13%
Sensitive Cell
11%
Biomimetics
10%
Nanocellulose
8%
Microscale
8%
Polymer Matrix
8%
Conventional Method
8%