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Nano-Biosensors for Detection and Monitoring
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Young readers will find the Reprint useful for learning about the systematic study and review of the many themes in the area of microfluidic-based biosensing. Empirical research and comprehensive reviews regarding the use of microfluidic technology in biosensing and point-of-care system development are included in this Reprint.
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Keywords
- amyloid subtyping
- bio-recognition element
- Biochemical engineering
- biosensing
- Biosensor
- Biosensors
- Biotechnology
- cancer detection
- cancer marker
- CEA
- cell damage
- DAMP molecule
- electrochemical accumulation
- electrochemical detection
- electrochemical device
- electrochemical sensor
- fluorescence detection
- Fluorescence microscopy
- folate
- food pathogen
- human kidney tissue
- human serum
- hyaluronic acid methacrylate hydrogel
- impedance cytometry
- impedimetric biosensor
- in-situ monitoring
- La(OH)3@MWCNT
- lab-on-a-chip
- lead removal
- Machine learning
- metal ion–amide complexation
- metasurface
- microfluidic
- microfluidic chip
- microfluidic chips
- modified electrode
- n/a
- nano- and micromaterials
- nucleic acid concentration
- PoC device
- PSA
- Raman spectroscopy
- regression model
- renal amyloidosis
- robustness
- sandwich assay
- stem cell differentiation
- Stress
- Surface modification
- Technology, engineering, agriculture
- Technology: general issues
- uric acid
- water quality monitoring
Links
DOI: 10.3390/books978-3-0365-9513-9Editions