Donghua University

Master’s Program in New Energy Material & Device

Donghua University
In Yangpu (China)

Price on request
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Important information

Typology Master
Location Yangpu (China)
Duration 3 Years
Start September
  • Master
  • Yangpu (China)
  • Duration:
    3 Years
  • Start:

New energy will be needed to meet skyrocketing energy demand in the worldwide range. Donghua researchers are trying to lead efforts to support a scalable, innovative, clean energy and reliable energy sources. A solid, theoretical understanding of new energy materials and devices will be trained with plenty of attention for
the wide range of its applications.

Facilities (1)
Where and when
Starts Location
Shanghai, China
See map
Starts September
Shanghai, China
See map

To take into account

· What are the objectives of this course?

Our approach is pragmatic as well as theoretical and experimental. As an academic, we not only expect you to understand and make use of the appropriate tools, but also to program and develop your own.

· Requirements

To be eligible for our Master program, you are required to graduate from Physics, chemistry, materials science and engineering, environmental science and engineering, information science and engineering, electronic science and technology, computer science and technology, mechanics, and other related fields of science and engineering.

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What you'll learn on the course

Computational Physics
GCSE Physics
Optical engineering
Literature Review
Solid State Physics
New Energy Material & Device
Plasma Diagnostics
Thin Film Deposition
Lighting Technology
Energy Band Theory of Solids
New Energy Material & Device

Course programme


1st Year

Compulsory course

  • Integrated Chinese I
  • Integrated Chinese II
  • China Survey
  • Solid State Physics / Physics of Semiconductor Devices
  • Plasma Physics and Technology
  • Spectroscopy
  • Seminar
Elective course

  • Plasma Diagnostics
  • Thin Film Deposition
  • Introduction of Fusion Plasma Physics
  • Energy Band Theory of Solids
  • LED Lighting Technology
  • Computational Physics
  • Literature Review
2nd Year

  • Thesis Proposal
  • Pre-defense

3rd Year

  • Concealed Evaluation
  • Final Defense