Materials Science & Engineering (MSE) is an interdisciplinary field that applies the fundamental knowledge of the physical sciences to create engineering innovations. In general, the term engineering refers to actively designing a system for a given application; MSE enables the design of systems from the atoms up. MSE focuses on the interrelationship between a material's structure (from the subatomic level to the macro scale) and the properties or behaviors that the material exhibits. Materials synthesis and processing techniques enable engineers to control and change the material structure in order to obtain the desired properties. Understanding the structure–properties–processing relationship requires a fundamental knowledge of the underlying chemistry and physics, and it is key to obtaining materials with the desired performance for engineering applications in a wide variety of fields, from computing to medicine to energy.

The minor in MSE builds upon the fundamental insights into material structure and properties gained through required introductory courses in chemistry and materials science. Students then select at least two courses from specialization "pick lists" to gain depth in a particular application area. A free elective provides the opportunity to gain additional depth in the fundamentals or exposure to another application area.

For more information, students should contact the advisor for the Minor in Materials Science & Engineering: Professor Katharine Flores (MEMS).

Some courses have prerequisites. Students will be approved for the minor after discussing appropriate course selection with the advisor for the minor.

Requirements

Total Units Required: 17

Courses Units
Three required courses 8
Two courses from specialization "pick lists" 6
One additional course from any list 3
Total Units 17

Required Courses

CHEM 1701General Chemistry I3
or CHEM 1601 Principles of General Chemistry I
CHEM 1751General Chemistry Laboratory I2
or MEMS 2050 Mechanics and Materials Science Laboratory
MEMS 2610Materials Science3
or EECE 3520 Materials Science
Total Units8

Specialization "Pick Lists"

Students should select at least two courses (6 units) from any one of the following categories:

Structural Materials

MEMS 5506Experimental Methods in Solid Mechanics3
MEMS 5507Fatigue and Fracture Analysis3
MEMS 5601Mechanical Behavior of Materials3
MEMS 5605Mechanical Behavior of Composites3
MEMS 5615Metallurgy and Design of Alloys3
MEMS 5616Defects in Materials3

Electronic/Optical Materials

CHEM 5014Physical Properties of Quantum Nanostructures3
ESE 4290Basic Principles of Quantum Optics and Quantum Information3
ESE 4360Semiconductor Devices3
ESE 5310Nano and Micro Photonics3
MEMS 5611Principles and Methods of Micro and Nanofabrication3
MEMS 5617Advanced Study of Solid-State Electronics3
MEMS 5618Electronic Behavior of Materials3
MEMS 5801Micro-Electro-Mechanical Systems I3
MEMS 5803Nanotechnology Concepts and Applications3
PHYSICS 5072Solid State Physics3
or PHYSICS 4072 Solid State Physics

Biomaterials/Soft Materials

BME 5230Biomaterials Science3
BME 5320Biomolecular Interaction Networks3
BME 5790Biofabrication & Medical Devices3
CHEM 4511Synthetic Polymer Chemistry3
CHEM 4570Synthetic Polymer Chemistry Laboratory3
EECE 5420Polymers for Energy, Sustainability, and Human Health3
MEMS 5606Soft Nanomaterials3
MEMS 5607Introduction to Polymer Blends and Composites3
MEMS 5608Introduction to Polymer Science and Engineering3
MEMS 5613Biomaterials Processing3
MEMS 5614Polymeric Materials Synthesis and Modification3

Materials for Energy and Environmental Technologies

CHEM 4360Inorganic Electrochemistry and Photochemistry3
EECE 5040Aerosol Science and Technology3
EECE 5050Aquatic Chemistry3
EECE 5200Electrochemical Engineering3
EECE 5420Polymers for Energy, Sustainability, and Human Health3
EEPS 3360Minerals and Rocks in the Environment3
EEPS 5670Planetary Materials3

Materials Design and Manufacturing

MEMS 4101Manufacturing Processes3
MEMS 5611Principles and Methods of Micro and Nanofabrication3
MEMS 5612Atomistic Modeling of Materials3
MEMS 5621Materials Selection in Design3
MEMS 5615Metallurgy and Design of Alloys3
MEMS 5801Micro-Electro-Mechanical Systems I3

Materials Characterization

MEMS 5506Experimental Methods in Solid Mechanics3
MEMS 5603Materials Characterization Techniques I3
MEMS 5604Materials Characterization Techniques II3

Fundamentals of MSE

These are core courses for the PhD program in Materials Science and Engineering. Pursue with caution!

CHEM 4620Solid-State and Materials Chemistry3
or CHEM 5620 Solid-State and Materials Chemistry
MEMS 5610Quantitative Materials Science & Engineering3
MEMS 5619Thermodynamics of Materials3
MEMS 5620Kinetics of Materials3
PHYSICS 4072Solid State Physics3
or PHYSICS 5072 Solid State Physics

Free Electives

To complete the minor, students may select one additional course from any category above. Students may also fulfill the free elective with 3 credits of MEMS 4999 Independent Study for an independent study project on a materials science and engineering topic. The project topic and description must be preapproved by the advisor for the minor.  

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