Singapore University of Social Sciences

Electronic Materials

Electronic Materials (ENG323)

Applications Open: 01 October 2022

Applications Close: 30 November 2022

Next Available Intake: January 2023

Course Types: Modular Undergraduate Course

Language: English

Duration: 6 months

Fees: $1378 View More Details on Fees

Area of Interest: Science & Technology

Schemes: Alumni Continuing Education (ACE), Lifelong Learning Credit (L2C)

Funding: To be confirmed

School/Department: School of Science & Technology


This course introduces the fundamentals of semiconductors, dielectric and magnetic materials. Topics include the basic properties of semiconductor, carrier generation, transport and recombination, polarization in material, dielectric phenomena, properties of capacitors, piezoelectric effects, mechanism of magnetization, and the types of magnetic materials and their properties. You will also learn about the processes used in the selection of materials for capacitors and magnetic sensors and their applications.

Level: 3
Credit Units: 5
Presentation Pattern: Every January


  • Crystal structure, Fermi-Dirac statistics, Intrinsic semiconductors.
  • Extrinsic semiconductors, Recombination, carrier transport & minority carrier injection.
  • Optical absorption, Material Polarization
  • Dielectric phenomena & capacitors
  • Piezoelectric effect, Basic concepts in magnetism
  • Magnetic materials & applications

Learning Outcome

  • Discuss the fundamentals of electronic / magnetic materials, for example, crystal structure, Fermi-level statistics, piezoelectric effect and etc.
  • Illustrate the optical absorption phenomenon in semiconductors and the concept of material polarization.
  • Appraise the characteristics of the dielectric phenomena and capacitor design methods.
  • Use qualitative and quantitative methods to study the characteristics of semiconductors.
  • Calculate the band gap, electron mobility, density, dielectric constant and various other parameters of electronic materials.
  • Assess the impact of temperature, doping concentration and other parameters on the characteristics of electronic materials.
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