Scholarship details

Study levels

PhD

Student type

Future students

Study area

Engineering and Science

Eligibility criteria

Academic performance, Women and Non-binary

Citizenship

International

Application dates

Applications close
17 January 2025

What you'll receive

  • A stipend of $45,000 per annum for a duration of 3.5 years. The duration includes an extension of up to six months if approved for your candidature.
  • The stipend is the full-time, tax-exempt rate.
  • A tuition fee offset/sponsorship, covering the cost of your tuition fees for the first four full-time equivalent years of your doctoral studies.
  • A translation and development allowance worth $5,000 per annum for three full-time equivalent years.

Eligibility

To be eligible you:

  • need to meet the entry requirements for QUT's Doctor of Philosophy, including any English language requirements
  • must enrol as a full-time, internal student (unless approval for part-time and/or external study is obtained)
  • must identify as a woman or non-binary and be an international student
  • must commence your degree in 2025.

How to apply

Apply for this scholarship at the same time you apply for admission to QUT's Doctor of Philosophy.

  • You will need to submit an expression of interest (EOI) following the advice at how to apply for a research degree
  • In your EOI, copy the link to this scholarship web page into question 2 of the financial details section.

If you have any questions regarding this scholarship, contact:

About the scholarship

QUT is seeking to build global talent in quantum and advanced technologies.

Within the Faculty of Science and the Faculty of Engineering at QUT, we have identified a number of vanguard project areas in which we can attract ambitious and innovative international students.

Project focus areas include:

  • mechanistic investigations of single-photon emission in boron nitride
  • quantum phases in engineered materials systems
  • quantum machine learning on biomedical sensor signals for human disease detection
  • understanding radical based organic conductors and highly doped polymer conductors
  • classification and monitoring, and cryptography in a quantum context.

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