Concept

Atomic absorption spectroscopy

Related lectures (31)

Covers the fundamentals of biophotonics, including absorption/transmittance, fluorescence, phosphorescence, and spectroscopy principles.

Atomic Models: Thomson and Rutherford

Explores the atomic models of Thomson and Rutherford, focusing on the interpretation of atomic spectra and the development of the Bohr model.

Dispersion Engineering and Nonlinear Light Generation in Waveguides

Explores dispersion engineering and nonlinear light generation in waveguides, focusing on manipulating light and achieving broad supercontinuum generation.

Photochemistry I: Beer-Lambert Law

Explores the Beer-Lambert law, absorptance, and electronic excited states in photochemistry.

Optical Methods in Chemistry

Introduces optical methods in chemistry, covering ray optics, lasers, spectroscopy, and X-ray physics, emphasizing light-matter interactions and Nobel Prize-winning advancements.

Analytical Chemistry: Instrumental Analysis

Covers the principles of instrumental analysis in analytical chemistry for the living world.

Laser Micro-Processing: Materials and Spectroscopy

Explores laser micro-processing of materials, fluorescence, spectroscopy, and band structures.

Radiative Transport Equation

Explores the Radiative Transport Equation in tissue optics, covering radiance, photon distribution, fluence rate, and solution methods.

Excitonic Coupling in Molecules

Explores the interaction of light with molecules, including exciton formation, absorption and emission spectra, and selection rules for electronic transitions.

Direct Photolysis: Light Absorption and Rate Determination

Explores direct and indirect photolysis, light absorption rates, quantum yield, and practical exercises in environmental chemistry.

Photochemistry: Excited State Dynamics

Explores photochemistry, excited state deactivation, emission spectra, and kinetics.

Advanced Spectroscopy Techniques

Explores advanced spectroscopy techniques revealing electronic, chemical, and magnetic properties of materials.

Introduction to X-rays and X-ray Sources: Part 3

Explores synchrotron radiation, X-ray sources, scientific achievements, and recent highlights in synchrotron science.

Quantum Mechanics: Harmonic Oscillator and Molecular Interactions

Discusses the harmonic oscillator in quantum mechanics and its implications for molecular interactions and energy levels.

Quantum Signatures of Chaos

Delves into quantum signatures of chaos, analyzing level spacing distributions in various systems and the challenges in observing quadratic level repulsion.

Optical Filters: Understanding Properties and Selection

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

Blackbody Emission: Understanding Light Processes

Delves into how astronomers study celestial objects through emitted light, focusing on different spectra types and their origins, including examples like a light bulb filament and the Sun's spectrum.

Molecular Energy Levels

Delves into molecular energy levels, electronic transitions, and applications in photomedicine.

Optical Properties: Coordination Complexes

Explores the optical properties of coordination complexes and their color influences on materials through absorption and emission phenomena.

X-ray Absorption Fine Structure II

Explores the quantitative expression of the EXAFS signal and its variants.