Light Sources: Metal Halide Lamps & LEDs

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Optical Methods in Chemistry: Microscopy, Manipulation, Spectroscopy

Explores optical methods in chemistry, covering microscopy, manipulation, and spectroscopy techniques.

Single Molecule FRET

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

Two-Photon Microscopy: Principles and Applications

Explores the principles and applications of two-photon microscopy, emphasizing its advantages in deep tissue imaging and reduced phototoxicity.

Semiconductor Physics: Light-Matter Interaction

Explores semiconductor physics, inorganic and organic semiconductors, light-matter interaction, and device applications, emphasizing the importance of understanding semiconductor properties and device design.

Microscopy: Imaging Systems and Techniques

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

Semiconductor Physics: Fundamentals and Applications

Delves into the physics of semiconductors, exploring their properties and applications in electronics and optoelectronics.

Super Resolution Techniques: Fluorescence Microscopy

Explores super resolution techniques in fluorescence microscopy for visualizing single polymer molecules.

Super Resolution Microscopy: STED Method

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

Super Resolution Microscopy: PALM and STORM

Explores super resolution microscopy techniques PALM and STORM, emphasizing single molecule localization microscopy and its applications.

Confocal Microscopy: Imaging Thick Biological Samples

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