Nano-inspired Biosensors for Protein Assay with Clinical Applications
Auteur : Li Genxi
Nano-inspired Biosensors for Protein Assay with Clinical Applications introduces the latest developments in nano-inspired biosensing, helping readers understand both the fundamentals and frontiers in this rapidly advancing field. In recent decades, there has been increased interest in nano-inspired biosensors for clinical application. Proteins, e.g. antigen-antibody, tumor markers and enzymes are the most important target in disease diagnosis, and a variety of biosensing techniques and strategies have been developed for protein assay. This book brings together all the current literature on the most recent advances of protein analysis and new methodologies in designing new kinds of biosensors for clinical diagnostic use.
Part I: Nanomaterials for protein assay1. Carbon nanomaterials2. Metal nanomaterials3. Quantum dots and nanoclusters4. Other nanomaterials
Part II: Molecular recognition in protein assay5. Immuno-biosensors6. Aptasensors7. Peptide-based biosensors8. Protein assay based on protein-small molecule interaction
Part III: Biosensing technologies for protein assay9. Electrochemistry10. Colorimetry11. Other signal-readout technologies12. Signal amplification strategy
academic researchers, graduate students, and industrial researchers and engineers (including biomedical engineers) who concentrate in analytical chemistry, nanotechnologies, biosensors, or clinical diagnosis
- Provides a single source of information on the latest developments in the field of biosensors for protein analysis and clinical diagnosis
- Focuses on biosensors fabricated with nanomaterials and nanotechnology
- Gives detailed methodologies for designing and fabricating nano-inspired biosensors
Date de parution : 09-2018
Ouvrage de 378 p.
15x22.8 cm
Thèmes de Nano-inspired Biosensors for Protein Assay with Clinical... :
Mots-clés :
Affinity; Antibody; Aptamer conformational switch; Aptamer-cell interaction; Aptasensors; Binding of peptide to target; Biocatalytic; Biosensor; Biotin receptor; Carbon nanotubes; Chemiluminescence; Cleavage of the peptide; Clinical values; Colorimetry; Competitive binding of target with aptamer; Disease biomarker; Distance indicators; Electrochemistry; Enzyme-aided signal amplification; Enzyme-controlled; Fluorescence; Folate receptor; Fullerene; Graphene; Graphene oxide; Human carbonic anhydrase; Immuno-biosensor; Liposome; Magnetic; Metal nanomaterials; Nanoclusters; Nucleic acid amplification; Peptide-based biosensor; Pizeoelectric biosensor; Pressure; Protein assay; Protein assays; Quantum Dots; Sandwich; Signal amplification; Signal-readout; Silicon; Small molecule-linked DNA; Small molecule-tethered chemical probe; Smell; Spectrometry; Split-type assay; Surface plasmon resonance; Surface-enhanced Raman scattering; The conformational shift of peptide; Upconversion; Virus; 1-to-N binding-based signal amplification