MSE 223 – Semiconductor Materials

Course Number: MSE 223 Course Units: 3   Instructor: Oscar Dubon, Junqiao Wu Course Description:  This course focuses on modern physics, processing and applications of semiconductor materials. Topics covered include: semiconductor growth, band structure, carrier statistics, point defects, nanostructures and quantum confinement, electrostatics, electrodynamics, classical dielectric theory, Boltzmann transport theory, phonons and thermal physics, thermoelectrics, optical effects, device physics […]

MSE 221 – Fuel Cells, Batteries and Chemical Sensors – Principles, Processes,Materials and Technology

Course Number: MSE 221 Course Units: 3   Instructor: Staff   Catalog Description: Considered first are the principles and electrode processes of electrochemical devices, chiefly fuel cells, but also batteries and chemical sensors. Then various transport processes in liquid, polymeric, and solid electrolytes are discussed. AC and DC analytical methods are described. Discussed are various fuel cell types, […]

MSE 216 – C216 Macromolecular Science in Biotechnology and Medicine

Course Number: MSE 216C Course Units: 4   Instructor: Professor Kevin E. Healy Catalog Description: Overview of the problems associated with the selection and function of polymers used in biotechnology and medicine. Principles of polymer science, polymer synthesis, and structure-property-performance relationships of polymers. Particular emphasis is placed on the performance of polymers in biological environments. Interaction between macromolecular and […]

MSE 215 – Introduction to Computational Materials Science

Course Number: MSE 215 Course Units: 3   Instructor: Professor Daryl C. Chrzan Catalog Description: Introduction to computational materials science. Development of atomic scale simulations for materials science applications. Application of kinetic Monte Carlo, molecular dynamics, and total energy techniques to the modeling of surface diffusion processes, elastic constants, ideal shear strengths, and defect properties. Introduction to simple numerical […]

MSE 214C – Micromechanics

Course Number: MSE 214C Course Units: 3   Instructors: Staff Catalog Description: Basic theories, analytical techniques, and mathematical foundations of micromechanics. It includes 1. physical micromechanics, such as mathematical theory of dislocation, and cohesive fracture models; 2. micro-elasticity that includes Eshelby’s eigenstrain theory; 3. theoretical composite material that includes the main methodologies in evaluating overall material properties; 4. meso-plasticity […]

MSE 213 – Environmental Effects on Materials Properties and Behavior

Course Number: MSE 213 Course Units: 3   Instructor: Professor Thomas M. Devine   Catalog Description: Review of electrochemical aspects of corrosion; pitting and crevice corrosion; active/passive transition; fracture mechanics approach to corrosion; stress corrosion cracking; hydrogen embrittlement, liquid metal embrittlement; corrosion fatigue; testing methods. Prerequisites: MSE 112 or equivalent. Course Format: Two one and one half hour lectures per week.

MSE 212 – C212 Deformation, Fracture and Fatigue

Course Number: MSE 212C Course Units: 4 Instructor: Professor Robert O. Ritchie Catalog Description: A survey of the mechanical and microstructural aspects of fracture and failure in structural metals, ceramics, polymers and composites. Topics include deformation, linear elastic and non-linear fracture mechanics, and elastic-plastic fracture mechanics. Fatigue of engineering material will be covered from a defect-tolerant, stress-life and […]

MSE 211C – Mechanics of Solids

Course Number: MSE 211C Course Units: 3   Instructors: Staff   Catalog Description: Mechanical response of materials: Simple tension in elastic, plastic and viscoelastic members.Continuum mechanics: The stress and strain tensors, equilibrium, compatability. Three-dimensional elastic, plastic and viscoelastic problems. Thermal, transformation, and dealloying stresses. Applications: Plane problems, stress concentrations at defects, metal forming problems. Prerequisites: Graduate standing or consent of […]

MSE 205 – Defects in Solids

Course Number: MSE 205 Course Units: 3   Instructor: Professor John Morris Catalog Description: Many properties of solid state materials are determined by lattice defects. This course treats in detail the structure of crystal defects, defect formation and optical properties of crystalline materials. Prerequisites: Physics 7C or consent of instructor. Course Format: Three hours of lecture per week.

MSE 204 – Theory of Electron Microscopy and X-Ray Diffraction

Course Number: MSE 204 Course Units: 3     Instructor: Professor A. Minor Catalog Description: Basic principles of techniques used in the characterization of engineering materials by electron mi8croscopy, diffraction, and spectroscopy; emphasis on detailed analysis of defects responsible for materials properties. Modern electrical, optical and particle beam techniques for the characterization of bulk single crystals and their crystalline […]