The UQ–IITD Academy of Research is seeking applications from exceptional candidates with backgrounds in science, technology, engineering, health, business, humanities and social sciences, for projects commencing in January 2025. Read more
Background. Plastics in fluvial environments have become an emerging threat to habitats. The expected long-life and potential adsorption of contaminants during transport has led to a growing concern of the international community. Read more
We are seeking a PhD student to work in mathematical biology with Associate Professor Pascal R. Buenzli and Professor Matthew J. Simpson on a project developing new mathematical models of biological tissue mechanics. Read more
This project aims to understand the factors responsible for the extraordinary diversity in the shape and size of fish ears and why some fishes are more sensitive to sound than others, which is poorly understood. Read more
As the population ages and chronic illnesses rise, innovative solutions in tissue engineering are becoming increasingly vital for improving health outcomes. Read more
The aim of this project is to develop artificial cells that can programmably communicate. In biology, cells are miniature factories where different compartments handle specific tasks. Read more
DNA is an ideal material for building nanomachinery. it is responsive to stimuli, biocompatible, and can be programmed to assemble into structures of specific sizes and shapes. Read more
Flexible Chain-die forming is a novel UQ patented advanced sheet metal forming technology which aims at manufacturing stronger, lighter and cheaper advanced high strength steel (AHSS) parts with improved quality and substantially lower energy consumption for many industries such automotive and clean energy systems. Read more
The research seeks to develop a generalised validated mathematical model for rail studs, and in particular to examine how this mechanism differs from that for rail squats. Read more
We are looking for PhD and MSc students to join a project on Topological Properties of STM-Lithographed Quantum Dots. This project aims to investigate the emergence of correlated electron states in topological quantum dot chains fabricated with atomic precision. Read more
Rare-earth atoms in crystals exhibit remarkable optical and magnetic properties that could transform atomic-scale sensing and quantum technologies. Read more
This project will investigate the early age cracking behaviour of Fibre Reinforced Concrete (FRC). Large scale experiments are planned to investigate the cracking behaviour of restrained slab elements containing various amount of fibre reinforcement. Read more
Fibre reinforced concrete is characterised by its post cracking strength. Determining these properties can be subject to a high degree of scatter which may otherwise lead to low characteristic values which may be adopted in design. Read more
*Offer only available for the duration of your active subscription, and subject to change. You MUST claim your prize within 72 hours, if not we will redraw.
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