Lectures related to Fluorescence in Microscopy: Introduction & Labeling Techniques

Fluorescence in Microscopy: Important Concepts

Introduces fundamental concepts of fluorescence in microscopy, covering terms like excitation and emission spectra, Stokes shift, quantum efficiency, brightness, and photobleaching.

Single Molecule FRET

Introduces Single Molecule FRET, explaining energy transfer between molecules and its applications in studying proteins and nucleic acids.

Fluorescence: Principles and Applications

Explores fluorescence principles, fluorophores, biomolecular analysis, and genetic engineering applications.

Fluorescence: Applications in Photomedicine

Explores the principles of fluorescence lifetime and quenching in photomedicine.

Fluorescence Spectroscopy: Principles and Applications

Explores fluorescence spectroscopy principles, applications in photomedicine, and biological fluorophores.

Optical Filters: Understanding Properties and Selection

Explains the importance of understanding optical filter properties and selecting suitable combinations for fluorescence microscopy.

Applications of Optical Spectroscopy in Photomedicine

Explores optical spectroscopy in photomedicine, emphasizing fluorescence principles, biological fluorophores, and fluorescence lifetime measurements.

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 Microscopy: Imaging Techniques

Explores fluorescence microscopy imaging techniques, including FRET principles and applications in biology.

Plasmonic Biomarkers

Explores the use of plasmonic nanoparticles as robust biomarkers in sensing and microscopy applications.

Confocal Microscopy: Imaging Thick Biological Samples

Explores confocal microscopy, imaging depth limitations, light absorption, scattering in tissues, and two-photon microscopy.

Microscopy Image Analysis

Explores light microscopy principles, fluorescent proteins, optical slicing, and modulation transfer functions in cellular imaging.

Super Resolution Microscopy: STED Method

Explores the principles and applications of Super Resolution Microscopy using the STED method for achieving high-resolution imaging.

Microscopy: Imaging Systems and Techniques

Covers the fundamentals of microscopy, including lens functioning, image creation, and advanced techniques like fluorescence and super resolution.

Optical filters: Understanding Fluorescence Microscopy

Explores optical filters in microscopy, including fluorescence principles, dye properties, and filter calibration.

Frontiers in Chem Bio: Bioluminescent Sensor Proteins

Covers bioluminescent sensor proteins for drug monitoring and the development of semi-synthetic sensors with self-labeling tags.

Photochemistry I: Xanthene Dyes and Energy Transfer Mechanisms

Explores xanthene dyes, energy transfer mechanisms, and fluorescence quenching in photochemistry.

Confocal Microscopy: Principles and Applications

Explores the principles and applications of confocal microscopy, emphasizing the elimination of out-of-focus fluorescence for superior images.

Fluorescence Microscopy: Illumination and Sources

Explores fluorescence microscopy principles, illumination techniques, and various light sources used in microscopy.