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Table of Contents
1 Absorption Spectroscopy: What can we learn on conformational changes of Biomolecules?
2 Circular Dichroism Spectroscopy: Principle and Application
3 Protein/Ligand Interaction using Steady-State Fluorescence Spectroscopy
4 Fluorescence Anisotropy: Probing Rotational Dynamics of Biomolecules
5 Fluorescence Lifetime: A Multifaceted Tool for Exploring Biological Systems
6 From Ensemble FRET to Single-molecule Imaging: Monitoring individual cellular machinery in action
7 Nanosecond Time- Resolved Fluorescence Assays
8 Fluorescence Correlation Spectroscopy: A highly sensitive tool for probing intracellular molecular dynamics and disease diagnosis
9 Principles and applications of Fluorescence microscopy
10 Analysis of biomolecular dynamics under Fourier-transform infrared spectroscopy
11 Raman Spectroscopy in Biology: Perspectives and Emerging Frontiers.
2 Circular Dichroism Spectroscopy: Principle and Application
3 Protein/Ligand Interaction using Steady-State Fluorescence Spectroscopy
4 Fluorescence Anisotropy: Probing Rotational Dynamics of Biomolecules
5 Fluorescence Lifetime: A Multifaceted Tool for Exploring Biological Systems
6 From Ensemble FRET to Single-molecule Imaging: Monitoring individual cellular machinery in action
7 Nanosecond Time- Resolved Fluorescence Assays
8 Fluorescence Correlation Spectroscopy: A highly sensitive tool for probing intracellular molecular dynamics and disease diagnosis
9 Principles and applications of Fluorescence microscopy
10 Analysis of biomolecular dynamics under Fourier-transform infrared spectroscopy
11 Raman Spectroscopy in Biology: Perspectives and Emerging Frontiers.