Eskisehir Technical University Info Package Eskisehir Technical University Info Package
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About the Program Educational Objectives Key Learning Outcomes Course Structure Diagram with Credits Field Qualifications Matrix of Course& Program Qualifications Matrix of Program Outcomes&Field Qualifications
  • Graduate School of Sciences
  • Department of Chemistry
  • Master of Science in Chemistry Via Distance Education (Non-Thesis)
  • Course Structure Diagram with Credits
  • Thermal and Surface Characterization Methods
  • Learning Outcomes
  • Description
  • Learning Outcomes
  • Course's Contribution to Prog.
  • Learning Outcomes & Program Qualifications

  • Can realize the processes of total surface area measurement and pore characterization of a porous solid sample with BET gas sorption analyzer.
  • explains the theories about BET surface area, total pore volume, average pore radius, pore size distribution, and micropore analysis.
  • defines the solid materials with respect to their pore characters.
  • recognizes the adsorption isotherms.
  • realizes experimentally its “degas” process before analysis of a sample.
  • Can realize the processes of hydrodynamic particular size, zeta potential, and molecular weight measurements of nanoparticles, proteins or polymers using Zetameter.
  • defines the concepts such as Dynamic Light Scattering (DLS), Brownian motion, Static Light Scattering (SLS), Rayleigh scattering, electrophoretic mobility, zeta potential, isoelectric point, electrical double layer, Stern layer, electrophoresis, Henry equation, Smoluchowski approximation.
  • express the other applications of Particle Size/Zeta Potential Analyzer.
  • Can organize both theorically and practically the processes of thermogravimetric, differential thermogravimetric, and differential scanning calorimetric analyses of a sample.
  • defines the fundamental concepts about Thermogravimetry, Differential Thermal Analysis, and Differential Scanning Calorimetry.
  • interprets related thermograms.
  • Can define X-ray methods and explain x-ray diffraction analysis, x-ray floresance spectroscopy and photoelectron spectroscopy, basically.
  • Expresses working principle and primary applications of X-ray Diffraction Analysis.
  • Expresses working principle and primary applications of X-ray Fluoresance Spectroscopy method
  • Expresses working principle and primary applications of X-ray Photoelectron Spectroscopy
  • Can define microscopic methods and explain scanning electron, atomic force and transmission electron microscopies basically.
  • Expresses working principle and primary applications of Scanning Electron Microscopy.
  • Expresses working principle and primary applications of Atomic Force Microscopy.
  • Expresses working principle and primary applications of Transmission Electron Microscopy.

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