Bulletin Archive
This archived information is dated to the 2008-09 academic year only and may no longer be current.
For currently applicable policies and information, see the current Stanford Bulletin.
This archived information is dated to the 2008-09 academic year only and may no longer be current.
For currently applicable policies and information, see the current Stanford Bulletin.
The University's basic requirements for the Ph.D. degree are outlined in the "Graduate Degrees" section of this bulletin.
Degree requirements for the department are as follows:
* At least 90 units must be taken in residence at Stanford. Students entering with an M.S. degree in Materials Science from another university may request to transfer up to 45 units of equivalent work toward the total of 135 required units.
† Students may, if they have sufficient background, petition out of some of the required core courses. To petition, students must have prior consent from their academic adviser, and consent from the instructor of the core course. That instructor provides an oral or written examination that the petitioning student must pass.
** To be offered 2009-10
Biomaterials: APPPHYS 292; BIOPHYS 228; CHEMENG 260, 310, 355; ME 284A,B, 381, 385, 457; MATSCI 380, 381
Electronic Materials Processing: EE 212, 216, 311, 316, 410; MATSCI 312
Materials Characterization: APPPHYS 216, 218; CHEMENG 345; EE 329; MATSCI 320, 321, 322, 323, 325, 326
Mechanical Behavior of Solids: AA 252, 256; MATSCI 251, 270, 352, 353, 358; ME 335A,B,C, 340, 340A,B, 345
Physics of Solids and Computation: APPPHYS 218, 272, 273; EE 222, 223, 228, 327, 328, 329, 335; MATSCI 343, 347; ME 344A,B
Soft Materials: CHEMENG 260, 310, 460; MATSCI 343; ME 455
AA 252. Techniques of Failure Analysis
AA 256. Mechanics of Composites
APPPHYS 216. X-Ray and VUV Physics
APPPHYS 218. X-Ray and Neutron Scattering in the 21st Century
APPPHYS 270. Magnetism and Long Range Order in Solids
APPPHYS 272,273. Solid State Physics I,II
APPPHYS 292. Introductory Biophysics
BIOPHYS 228. Computational Structural Biology
CHEMENG 260. Polymer Science and Engineering
CHEMENG 310. Microscale Transport in Chemical Engineering
CHEMENG 345. Fundamentals and Applications of Spectroscopy
CHEMENG 355. Advanced Biochemical Engineering
CHEMENG 460. Polymer Surfaces and Interfaces
EE 212. Integrated Circuit Fabrication Processes
EE 216. Principles and Models of Semiconductor Devices
EE 222,223. Applied Quantum Mechanics I,II
EE 228. Basic Physics for Solid State Electronics
EE 311. Advanced Integrated Circuit Fabrication Processes
EE 312. Micromachined Sensors and Actuators
EE 316. Advanced VLSI Devices
EE 327. Properties of Semiconductor Materials
EE 328. Physics of Advanced Semiconductor Devices
EE 329. The Electronic Structure of Surfaces and Interfaces
EE 335. Introduction to Information Storage Systems
EE 410. Integrated Circuit Fabrication Laboratory
ENGR 31. Chemical Principles with Application to Nanoscale Science and Technology
ENGR 50. Introduction to Materials Science, Nanotechnology Emphasis
ENGR 50M. Introduction to Materials Science, Biomaterials Emphasis
ME 284A/B. Cardiovascular Bioengineering
ME 329. Physical Solid Mechanics
ME 335A/B. Finite Element Analysis
ME 335C. Introduction to Boundary Element Analysis
ME 340A. Theory and Applications of Elasticity
ME 340B. Elasticity in Microscopic Structures
ME 344A. Computational Nanotechnology
ME 344B. Nanomaterials Modeling
ME 345. Fatigue Design and Analysis
ME 381. Orthopaedic Bioengineering
ME 385. Tissue Engineering Lab
ME 455. Complex Fluids and Non-Newtonian Flows
ME 457. Fluid Flow in Microdevices
PHYSICS 230/231. Quantum Mechanics
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