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Lecture
Fluorescence: Principles and Applications
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Fluorescence: High Contrast Imaging Technique
Explores fluorescence microscopy, high contrast imaging, specificity, and quantum nature of light.
Fluorescence in Microscopy: Probes and Applications
Covers the introduction to fluorescence in microscopy, discussing various types of probes and their applications in biomicroscopy.
Fluorescence in Microscopy: Basic Principles and Processes
Covers the basic principles of fluorescence in microscopy, including photon absorption, emission, energy levels, and the Jablonski diagram.
Flow Cytometry: An Invaluable Tool for Research and Clinical Applications
Introduces Flow Cytometry as a technology for rapid multi-parametric analysis of single cells in various disciplines.
Biophotonics Fundamentals
Covers the fundamentals of biophotonics, including absorption/transmittance, fluorescence, phosphorescence, and spectroscopy principles.
Optical Filters: Understanding Properties and Selection
Explains the importance of understanding optical filter properties and selecting suitable combinations for fluorescence microscopy.
Chemical Biology Tools: DDX3 Mutant Analysis
Analyzes a mutant DDX3 enzyme's ATPase activity and inhibitor development, covering RNA chaperones, crystal structures, and mass spectrometry-based protein profiling.
Fluorescence: Quantum Dots and Lanthanide Chelate Complexes
Explores Quantum Dots' fluorescence properties and Lanthanide Chelate Complexes' long-lived emission.
Enzyme Inhibitors: Drug Design and Tools
Explores enzyme inhibitors as drugs, drug design, and protein function, including activity-based protein profiling and genome probing tools.
Photochemistry: Excited State Dynamics
Explores photochemistry, excited state deactivation, emission spectra, and kinetics.
