The Ph.D degree is designed to help address the global need for research and education in new sustainable energy technologies. Graduate research opportunities are available in photovoltaics utilizing novel nanotechnologies, materials and structures to convert light energy into electricity, power electronics, microgrids, and power systems.

The program offers a variety of courses that encompass a broad range of Electrical Engineering areas including: alternative energy and power systems; computer engineering, communications; electronic materials, devices and sensors; nano technology, photovoltaic devices and systems; and signal and image processing. The department’s graduate faculty conduct active research in these areas using modern research facilities and equipment. 

Program Objectives

The EE graduate program objectives are to equip individuals to

  • Discover and disseminate knowledge relevant to the discipline of electrical engineering.
  • Provide leadership for increasingly complex roles in electrical engineering and industry.
  • Contribute to the advancement of the science of electrical engineering serving regional and national needs.

    • Course Delivery

    A majority of the courses are taught on campus in smart classrooms. The smart classrooms allow for a variety of methods for student engagement and faculty are able to record and post their lectures on-line. Additionally, some courses are offered remotely via “Access Grid” in collaboration with other Ph.D. granting institutions in the state.