Nanoscale Materials Science Graduate Program

Stanford School of Engineering

  • Graduate Certificate
  • Fee:
    Fee may apply



A revolution in materials science and engineering is taking place as researchers find ways to pattern and characterize materials at the nanometer length scale. New materials with outstanding electrical, optical, magnetic and mechanical properties are rapidly being developed for use in information technology, bioengineering, and energy and environmental applications. The Nanoscale Materials Science Graduate Program offers an opportunity to acquire the knowledge and skills needed to understand the present and potential applications of these rapidly developing nano-materials technologies.

You Will Learn

  • How to use nanofabrication and nanocharacterization to make advanced materials and devices with desired properties
  • What market directions and new products are being made possible by rapid developments in new nanoscale materials and material characteristics
  • How to apply a foundation innanofabrication and nanocharacterization in diverse fields, such as green and renewable energy, medical devices, bioengineering, biocompatible materials, cutting-edge semiconductor fabrication, optics and optical computing devices, micro-electromechanical systems, advanced microstructural applications, chemical processing, and chemical and biological sensing

Who Should Apply

  • Materials Scientists
  • Electrical, Mechanical, Chemical, or Aerospace Engineers
  • Technology professionals seeking to transition to a field in which nanoscale materials are or will be used
  • Entrepreneurs with interests in markets that are being created by these new nanoscale materials technologies

Earning the Certificate

  • Earn a Stanford Graduate Certificate in Nanoscale Materials Science
  • Tailor the program to your interests and career goals
  • Begin the program any academic quarter that an applicable course is offered, subject to prerequisites
  • Take courses for graduate credit and a grade
  • Receive a B (3.0) or better in each course
  • Participants may either take MATSCI346 or EE336 to satisfy the Nanophotonics content, but may not apply both to the program


  • Basic math: college level calculus.
  • Introductory level materials science.
  • For some courses, basic differential equations.
  • A conferred Bachelor’s degree with an undergraduate GPA of 3.0 or better.


To pursue a graduate program you need to apply.

Apply Now



Tuition is based on the number of units you take. See Graduate Course Tuition on our Tuition & Fees page for more information.

Time to Complete Certificate

1-2 years average
3 years maximum to complete

Faculty Sponsor

Yi Cui, Assistant Professor of Materials Science and Engineering


Submit an inquiry to receive more information.