Nanobiosensors for Bio-molecular Targeting presents the latest analytical methods for the detection of different substances in the range of small molecules to whole cells, exploring the advantages and disadvantages of each method. Biosensors combine the component of biological origin and physicochemical detector to show the presence of analytes in a given sample. The use of bionanotechnology has led to a significant advancement in the progression of nanobiosensors and has been effectively used for biomedical diagnosis.
- Explains the detection techniques used by nanosensors, exploring the strengths and weaknesses of each for the detection of disease
- Shows how biosensors are used to detect various types of biomolecules
- Demonstrates how the use of nanomaterials makes biosensors both cheaper and more efficient
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2. Essentials in high-performance nanobiosensors
3. Small molecular detection on sensor substrate
4. Biosensor recognizes the receptor molecules
5. Whole cell detection
an application for disease surveillance
6. Nucleic acid complementation analysis on biosensor
7. Analysis of glycan binding events on biosensor
8. Determination of lipid components by biosensor
9. Antibody-mediated diagnosis of biomolecules
10. Aptamer-mediated diagnosis of biomolecules
11. Biosensor assisted molecular discrimination
12. Biosensor for the detection of cancer biomarkers
13. Advancements of Nanobiosensor in Nanotheranostics
Subash C.B. Gopinath is Associate Professor at the Institute of Nano Electronic Engineering & School of Bioprocess Engineering at University of Malaya'. His research focuses on biosensors, aptamer technology and diagnosis of infectious.
Thangavel Lakshmipriya is based at the Institute of Nanoelectronic Engineering, University of Malaya'. His research focuses on the use of nanomaterials for biomolecular detection for the early diagnosis of desease