Everything you need to know as a first-time student.
Information and support for postgraduate study.
Courses, supervisors and your life as a researcher.
Discover our campuses, courses and entry requirements.
Step-by-step application guides for our courses.
Get financial support for your studies. Find a scholarship that's right for you.
Options like part-time, external and online study can help you tailor how you learn.
Our executive education courses give you the skills you need to lead in a fast-paced world.
Boost your career or extend your skills with a short course or unit.
Our free online courses are open to everyone.
Our internationally recognised research is supported by state-of-the-art research infrastructure.
Considering research with us? Here's what to expect.
Browse our experts or find a supervisor.
PhDs, research masters and professional doctorates.
Apply for scholarships for research study, or competitive grants as a professional researcher.
Our researchers work in supportive and established networks.
We value and promote integrity and ethical responsibility in all research we conduct.
Our strengths and areas of focus in research.
A selection of world-class research from our research centres and groups.
We collaborate with industry partners to research solutions for real-world problems, and to give our students hands-on experience in the workplace.
Work with our students and graduates, sponsor scholarships, prizes or events, or become an industry partner.
We offer commercial research and consultancy services, research commercialisation, and workplace training and development.
We're working with a range of industry partners and collaborators.
Our customised executive education equips your employees with tools and inspiration to give your organisation a real edge.
We offer short courses to help you advance your career and expand your skills.
Boeing Australia have collaborated on projects with us and provided sponsorship, and their staff have taught in our avionics program.
We are a highly successful and globally positioned Australian university with an applied emphasis in courses and research.
Make a real impact by giving to QUT and supporting our students, researchers and community.
Our history, key statistics, sustainability initiatives and programs and Indigenous acknowledgement.
Meet our staff and executive team.
Our awards, accreditation details, research rankings and scholarly achievements.
Our plans for expanding our university's achievements in learning, teaching and research.
Policies, procedures and annual reports.
What's on at QUT.
Want to work with us? See available jobs.
Our campuses and facilities, including maps, research locations and public venues.
Email: email@example.com Phone: +61 7 3138 2000
Our graduates run successful businesses, conduct ground-breaking research and make significant contributions to their communities.
We celebrate our alumni with annual awards for graduates and students.
Get involved with QUT by engaging with and supporting our current students.
Once you've graduated, we encourage you to keep in touch with the QUT community and your fellow alumni.
Email: firstname.lastname@example.org Phone: +61 7 3138 4778 Mon-Fri, 8.30am-5pm
Award-winning singer-songwriter and ARIA-nominated artist Kate Miller-Heidke is the 2016 QUT Alumnus of the Year.
Step-by-step guide to applying as an international student.
We offer scholarships for international students to help with study and living costs.
You may be able to meet with a QUT staff member or official representative in your city.
Find out more about living and studying in Brisbane.
While you're studying here, you can access a range of support services to help you adjust to life in Brisbane.
Come to QUT for one or two semesters.
Freecall: 1800 181 848 (within Australia)
Phone: +61 3 9627 4853 (outside Australia)
Subscribe for email updates
Is our tech-laden modern world wearing out your eyes? QUT eye health researcher and optometrist Associate Professor Scott Read says it’s a case of not just stopping to smell those flowers, but having a good look at them too.
Email: email@example.com Phone: +61 7 3138 2361
You are here:
A stunning discovery by QUT soil scientist Marek Zbik of nano particles inside bubbles of glass in lunar soil could solve the mystery of why the moon's surface topsoil has many unusual properties.
Dr Zbik, from Queensland University of Technology's Science and Engineering Faculty, said scientists had long observed the strange behaviour of lunar soil but had not taken much notice of the nano and submicron particles found in the soil and their source was unknown.
Dr Zbik took the lunar soil samples to Taiwan where he could study the glass bubbles without breaking them using a new technique for studying nano materials call synchrotron-based nano tomography to look at the particles. Nano tomography is a transmission X-ray microscope which enables 3D images of nano particles to be made.
"We were really surprised at what we found," Dr Zbik said.
"Instead of gas or vapour inside the bubbles, which we would expect to find in such bubbles on Earth, the lunar glass bubbles were filled with a highly porous network of alien-looking glassy particles that span the bubbles' interior.
"It appears that the nano particles are formed inside bubbles of molten rocks when meteorites hit the lunar surface. Then they are released when the glass bubbles are pulverised by the consequent bombardment of meteorites on the moon's surface.
"This continuous pulverising of rocks on the lunar surface and constant mixing develop a type of soil which is unknown on Earth."
Dr Zbik said nano particles behaved according to the laws of quantum physics which were completely different from so called 'normal' physics' laws. Because of this, materials containing nano particles behave strangely according to our current understanding.
"Nano particles are so tiny, it is their size and not what they are made of that accounts for their exceptional properties.
"We don't understand a lot about quantum physics yet but it could be that these nano particles, when liberated from their glass bubble, mix with the other soil constituents and give lunar soil its unusual properties.
"Lunar soil is electro-statically charged so it hovers above the surface; it is extremely chemically active; and it has low thermal conductivity eg it can be 160 degrees above the surface but -40 degrees two metres below the surface.
"It is also very sticky and brittle such that its particles wear the surface off metal and glass."
Dr Zbik said the moon had no atmosphere to cushion the impact of meteorites like Earth had.
"When they hit the moon there is a very violent reaction. Huge temperatures are generated which melts the rock. The pressure goes and a vacuum is created. Bubbles occur in the molten glass rock like soft drink bubbles trying to escape the bottle.
"Our work now is to understand how those particles evolve from this process. It may also lead us to completely different way of manufacturing nanomaterials."
Dr Zbik and his research team's study was published in the International Scholarly Research Network Astronomy and Astrophysics.
To find out more and also view a 3D image from inside the lunar bubble using transmission X-Ray microscopy go to http://youtu.be/omRoS2SntMU . You can see what is inside the lunar bubble with 3D glasses.
** High res photo of Dr Zbik available for media use.
Media contact: Niki Widdowson, QUT media officer, 07 3138 2999 or firstname.lastname@example.org.
Dr Marek Zbik