Graduate Program

Graduate Program



Graduate Program

MSE's undergraduate degree program has consistently ranked in the top five of U.S. News and World Report's annual comparison of U.S. materials engineering programs.

MSE has recently expanded the undergraduate curriculum with a new series of lecture courses focusing on nanomaterials science and technology. The new lecture courses include three Introduction to Materials Science classes with an emphasis on either biomaterials, energy or nanotechnology, and more specialized undergraduate classes on:

- Nanostructure and Characterization

- Bio-Chips, Imaging and Nanomedicine

- Solar Cells, Fuel Cells and Batteries: Materials for the Energy Solution

Our MSE program also offers a variety of laboratory classes, which offer hands-on lab experience for our undergraduate students. This's year lab courses include Nanomaterials, Nanocharacterization, X-Ray Diffraction, Electronic and Photonic Materials and Devices Lab, and Mechanical Behavior. A very popular component of our MSE undergraduate major is the opportunity for students to do a research project with one of the MSE professors. The MSE Undergraduate Research Program — Science and Technology at the Nanoscale is a 10-week program, and the students of all years ranging from freshman to seniors are given opportunities to work closely with a professor on a summer research project. In the summer of 2014, 19 students in this program worked on projects including synthesis and characterization of nanostructures, bio materials, photovoltaics and other devices, and evaluating mechanical behavior at the nanoscale. Many students from this program choose to continue their research with their faculty advisors throughout their undergraduate years at Stanford. The requirements for this degree are described in the Materials Science and Engineering section of the Stanford Bulletin and the School of Engineering Undergraduate Handbook. Electives are available so students with broad interests can combine materials science and engineering with work in another science and engineering department.


Graduate Programs

Master's Program

The master's program provides training in solid-state fundamentals and materials engineering at a more advanced level than the undergraduate program. To receive the master's degree, a student must take 45 units of courses (approximately 15 quarter-long classes). The list of classes that are required is given in the Materials Science and Engineering section of the Stanford Bulletin. Some students take five classes per quarter and graduate in one year, but most take between four and five quarters to graduate. Many master's students chose to earn 6 to 9 units of credit by doing research with a professor in the lab and writing a master's report. Students who do exceptionally well in the master's program and decide that they would like to stay at Stanford to earn a PhD degree may petition into the PhD program.nclude three Introduction to Materials Science classes with an emphasis on either biomaterials, energy or nanotechnology, and more specialized undergraduate classes on:


Current Courses

Title Instructor(s) Semester
MATSCI 142 (section 1)
Quantum Mechanics of Nanoscale Materials
Lindenberg, A. 2017-2018 Spring
MATSCI 144 (section 1)
Thermodynamic Evaluation of Green Energy Technologies
Chueh, W. 2017-2018 Spring
MATSCI 152 (section 1)
Electronic Materials Engineering
Dionne, J. 2017-2018 Spring
MATSCI 160 (section 1)
Nanomaterials Laboratory
Brock, R. 2017-2018 Spring
MATSCI 165 (section 1)
Nanoscale Materials Physics Computation Laboratory (MATSCI 175)
Reed, E. 2017-2018 Spring
MATSCI 190 (section 1)
Organic and Biological Materials (MATSCI 210)
Reed, E. 2017-2018 Spring

Gachon university
Materials Science & Engineering