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Advances in nanoplasmonic biosensors for clinical applications
Elba Mauriz
, Priyanka Dey
, Laura M. Lechuga
SHLS Life Sciences
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peer-review
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Keyphrases
Clinical Application
100%
Nanoplasmonic Sensor
100%
Biomarker Testing
66%
Plasmonic Biosensor
66%
Healthcare Settings
33%
Cardiovascular Disease
33%
Health Risk
33%
Therapeutic Intervention
33%
Risk Factors
33%
Operative
33%
Misinterpretation
33%
Commercially Available
33%
Clinical Outcomes
33%
Clinical Practice
33%
Analytical Method
33%
Recent Advances
33%
Patient-centered Care
33%
Performance Enhancement
33%
Analytical Techniques
33%
Point-of-care
33%
Performance-based
33%
Multiplexing
33%
Body Fluids
33%
Neurodegenerative Diseases
33%
Recent Applications
33%
Biological Indicators
33%
Point-of-care Testing
33%
Assure
33%
Sensor Platform
33%
Analytical Performance
33%
Cancer Disease
33%
Plasmonics
33%
Sensor Miniaturization
33%
Clinical Field
33%
Portable Diagnostic Device
33%
Novel Chemicals
33%
Health Disorders
33%
Chemical Functionalization
33%
Nanostructured Surfaces
33%
Decentralized Setting
33%
Functionalization Strategies
33%
Nanoplasmonics
33%
Bioreceptor
33%
Clinical Performance
33%
Health Platform
33%
Plasmonics Applications
33%
Engineering
Plasmonics
100%
Clinical Application
100%
Bioinstrumentation
100%
Limitations
25%
Diagnostic Device
25%
Health Care
25%
Care Device
25%
Clinical Outcome
25%
Multiplexing
25%
Clinical Performance
25%
Nanostructured Surface
25%
Material Science
Analytical Method
100%
Multiplexing
50%
Body Fluid
50%
Surface (Surface Science)
50%