Lecture

Polymer Characterization: Advanced Methods & Techniques

Related lectures (31)

Surface Characterization: X-ray Photoelectron Spectroscopy

Covers the principles and applications of X-ray Photoelectron Spectroscopy for surface characterization.

Introduces X-ray Photoelectron Spectroscopy (XPS) for surface analysis, covering principles, applications, analysis process, and depth profiling techniques.

X-ray Photoelectron Spectroscopy: Fundamentals and Applications

Explores X-ray Photoelectron Spectroscopy fundamentals, applications, challenges, and sputtering techniques for surface analysis.

Polymer Synthesis: Basics and Techniques

Explores polymer synthesis basics, including step and radical chain polymerization, molecular weight control, copolymerization, and crosslinked polymers for microengineering.

Film Thickness Determination: XPS Analysis

Explains film thickness determination using XPS and AES techniques, covering principles, instrumentation, and analytical comparisons.

Polymer Chain Architecture and Properties

Explores polymer chain architecture, properties, states, types, branching, length, configuration, isomerism, tacticity, polymerization, nomenclature, copolymers, molecular weight distribution, and thermal transitions.

Polymer Chemistry: Basics and Applications

Covers the basics of polymer chemistry, including polymerization mechanisms, molecular weight control, and crystallization behavior.

Glass Transition: Polymer Properties

Explores glass and melting transitions in polymers, including characterization methods and specific polymer properties.

Electron Spectroscopy: XPS/UPS

Explores X-ray and Ultraviolet Photoelectron Spectroscopy principles, applications, and case studies on TiO2 coatings and doped films.

Controlled Radical Polymerization: Mechanisms and Applications

Explores the mechanisms and applications of controlled radical polymerization techniques, enabling precise control over polymer structure and composition.

Capillarity and Wetting

Explores capillarity, wetting, and surface tension, discussing contact angles, hysteresis, and wetting states.

Polymer brushes: Synthesis and Applications

Explores the synthesis and applications of polymer brushes, including controlled polymerization techniques and their use in protein microarrays and cell adhesion.

Surface Analysis and SIMS

Explores surface analysis methods using electrons, ions, atoms, and photons, emphasizing the importance of ToF-SIMS for in-depth surface analysis in various fields.

Polymer Phase Behavior

Explores the physical chemistry of polymeric materials, emphasizing concentrated solutions and phase separation behavior.

Industrial Organic Chemistry

Explores the transformation of raw materials into commercial products in the chemical industry, focusing on the production of industrial organic chemicals and polymers.

Polymer Brushes: Surface-Initiated Polymerization

Explores the synthesis and properties of polymer brushes formed through surface-initiated polymerization.

Polymer Solid State Properties

Explores polymer structure in the solid state, crystallinity, mechanical properties, and degradation behavior.

Polymer Brushes: Grafting and Analysis

Explores polymer brushes synthesis, analysis methods, and research questions in the field.

Chemical analysis: X-Ray photoelectron spectrometry

Covers X-Ray Photoelectron Spectrometry (XPS), a surface analysis technique developed by Kai Siegbahn, explaining its components, mechanism, and analysis methods.

Metal-Free ATRP: Evolution and Applications

Explores the evolution and applications of Metal-Free Atom Transfer Radical Polymerization, highlighting the advantages of light-mediated polymerization and the challenges in achieving precise control over polymer synthesis.