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40
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Course Description

Particle technology is that branch of science and engineering dealing with the production, handling, modification, and use of a wide variety of particulate materials, both wet or dry, in sizes ranging from nanometers to centimeters; its scope spans a range of industries to include chemical, petrochemical, agricultural, food, pharmaceuticals, mineral processing, advanced materials, energy, and the environment.

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Course Syllabus
  • Mod-01 Lec-01 Introduction: Why study particle characterization?
  • Mod-01 Lec-02 Introduction: Classification of particle characteristics
  • Mod-02 Lec-03 Morphological Characterization: Shape analysis methods
  • Mod-02 Lec-04 Morphological Characterization: Techniques of shape assessment
  • Mod-02 Lec-05 Morphological Characterization: Decision rules
  • Mod-03 Lec-06 Morphological Characterization: Static vs dynamic methods of size analysis
  • Mod-03 Lec-07 Morphological Characterization: Static methods of size analysis
  • Mod-03 Lec-08 Morphological Characterization: Light scattering from spherical particles
  • Mod-03 Lec-09 Morphological Characterization: Particle counters
  • Mod-03 Lec-10 Morphological Characterization: Particle size distributions
  • Mod-03 Lec-11 Morphological Characterization: Acoustic Attenuation Spectroscopy
  • Mod-03 Lec-12 Morphological Characterization: Nano-particle size analysis
  • Mod-04 Lec-13 Structural Characterization
  • Mod-05 Lec-14 Interfacial Characterization
  • Mod-06 Lec-15 Surface Adhesion: Forces
  • Mod-06 Lec-16 Surface Adhesion: Electrostatic & Surface-Tension Forces
  • Mod-06 Lec-17 Surface Adhesion: Adhesion Force Measurement
  • Mod-07 Lec-18 Particle Removal: Methods
  • Mod-07 Lec-19 Particle Removal: Wet Cleaning
  • Mod-08 Lec-20 Particle Cohesion: Forces
  • Mod-08 Lec-21 Particle Cohesion: Flowability Implications
  • Mod-09 Lec-22 Transport Properties: Diffusion & Electrostatic Field Effects
  • Mod-09 Lec-23 Transport Properties: Drag & Inertia
  • Mod-09 Lec-24 Transport Properties: Deposition Fluxes & Rates
  • Mod-09 Lec-25 Transport Properties: Illustrative Application
  • Mod-10 Lec-26 Chemical & Compositional Characterization: Reactivity
  • Mod-10 Lec-27 Chemical & Compositional Characterization: Analytical Methods
  • Mod-10 Lec-28 Chemical & Compositional Characterization: XRD & AFM
  • Mod-11 Lec-29 Nano-particle Characterization: Bottom-Up Synthesis Methods
  • Mod-11 Lec-30 Nano-particle Characterization: Top-Down Synthesis Methods
  • Mod-11 Lec-31 Nano-particle Characterization: Dispersion
  • Mod-11 Lec-32 Nano-particle Characterization: Properties & Techniques
  • Mod-12 Lec 33 Practical Relevance of Particle Characterization: Nano-Fluids
  • Mod-12 Lec-34 Practical Relevance of Particle Characterization: Filtration
  • Mod-12 Lec-35 Practical Relevance of Particle Characterization: Cleanrooms
  • Mod-12 Lec-36 Practical Relevance of Particle Characterization: High-Technology Manufacturing
  • Mod-12 Lec-37 Practical Relevance of Particle Characterization: Explosivity
  • Mod-12 Lec-38 Practical Relevance of Particle Characterization: Environment & Human Health
  • Mod-12 Lec-39 Practical Relevance of Particle Characterization: Other Applications
  • Mod-13 Lec-40 Summary
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