• Duration

    4 Years

  • Post study work visa

    3 Years

  • Intake months

    September

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Students from Australia are accepted for this course

You will learn from professors who create advanced materials for high-efficiency energy storage and conversion technologies, lower the cost of solar cells using silicon extracted from rice husk, and develop lightweight and high-performance materials for aerospace and automotive applications. This is where advanced engineering and cutting-edge science meet. You?ll study how to design and manipulate the structure and properties of materials at a molecular and atomic level. With a foundation in chemistry, physics and math, you?ll then add specialized engineering knowledge in nanotechnology, biomaterials, adaptive polymers, advanced semiconductors, photovoltaics, forensics, and many more exciting fields.

More than 120k+ International Students have made it here.
You could be the next

IELTS 6.5

TOEFL 100

  • Type of institution

    Foundation Provider

  • Year established

    1827

  • Total students

    62,864

  • On campus accommodation

    Available

Ranking

  • the

    THE rank

    21
  • QS

    QS rank

    34
  • arwu

    ARWU rank

    24

Accreditations

Potential career outcomes for Bachelor of Applied Science in Materials Engineering

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