MSE 6160

MSE 6160

Course information provided by the Courses of Study 2022-2023. Courses of Study 2022-2023 is scheduled to publish mid-June.

This course aims to provide a comprehensive understanding of crystal structures and their properties across length scales—from atomic to mesoscale structures—and across classes of materials (e.g., metals, oxides, polymer micelles, nanoparticles). After a quick review of crystallographic symmetry and notation, the course will follow an integrated approach, covering different crystal structure types and materials classes in a case-study-like manner, and the consequences of chemical and structural properties of the building blocks and emerging ordered structures. In the context of each class of structure types, the following aspects will be discussed: crystallographic nomenclature (symmetry groups), crystal structure geometry and topology (bond angles, coordination polyhedra, nets), types of order and disorder motifs (unit cells, modulations, stochasticity), crystal-chemical interpretation and chemical bonding (interactions between particles and resulting structural motifs), phase diagram context (phase stability, surrounding phases), structure-based properties (electric, mechanical, photonic, etc.). Topics include typical crystal structures in metals, oxides, ionic compounds, mesoscale systems, as well as complex periodic structures, aperiodic structures, non-periodic structures.

When Offered Fall.

Prerequisites/Corequisites Prerequisite: basic understanding of crystal stucture and symmetry, equialent to MSE 2060 or MSE 5801.

Comments Offered every two years.

Outcomes
  • Apply crystallographic nomenclature to describe crystal structures.
  • Create graphical and numerical representations of crystal structures.
  • Identify crystal structure types and relate phases to geometrical equivalents across length scales and classes of materials.
  • Demonstrate an understanding of the relationship between materials geometry and structure-based materials properties.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session. 

  • 3 Credits Stdnt Opt

  • 17902 MSE 6160   LEC 001

    • TR
    • Aug 22 - Dec 5, 2022
    • Dshemuchadse, J

  • Instruction Mode: In Person
    MSE grad students wishing to use MSE 6160 to satisfy the field requirement for 6000-level core classes must enroll for a letter grade.