Student Projects

AIBN has a range of projects available in various impact areas. After you have found a project you are interested in contact the HDR team with an expression of interest form

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AIBN offers Masters (by coursework) projects through enrolment in collaborating Schools at The University of Queensland. Summer and Winter research interns may have the opportunity to continue to pursue their projects into a Masters degree.

    What to do

    1. Select the Masters project advisor name to download a PDF document with contact details and additional project information.
    2. Contact the project advisor directly to discuss the project and arrange a meeting or visit to the AIBN lab.

    An Honours year is a chance for you to follow your passion by completing an independent research project under the guidance of an experienced researcher at the end of your undergraduate degree.

    AIBN offers Honours projects through enrolment in collaborating Schools at The University of Queensland. Summer and Winter research interns can continue to pursue their projects into an Honours degree.

    Take a look at the projects listed below or contact our researchers and talk about how we can work to develop an honours project with you.

      Professor Alan Rowan

      • Biodegradable filtration membrane
      • Investigation of the processing parameters on the nanocellulose properties
      • Brain mimicry to understand the behaviour of malignant gliomas
      • Studying of cells in microgravity conditions
      • Measuring the microscale stiffness around cells
      • Studying cellular response to external force
      • Visualisation of mechanosensing dynamics
      • Unveil the drivers of bone fracture healing
      • Differentiation of stem cells to repopulate bone forming and resorbing cell population
      • Bone cell extracellular vesicles, natures ultimate nanoparticles driving cell signalling 
      • Osteocytes the master regulator of bone formation
      • Guiding wound healing through biophysical control
      • Collagen the founding matrix of our bodies but cellular production is not as simple as we might think.
      • Get creative, make your own synthetic collagen III
      • The influence of extracellular matrix composition on brain diseases 
      • How does the persistence length of polymers influence their biodistribution

      Professor Debra Bernhardt

      • Transport in nanoporous systems
      • Computational studies of ionic liquids
      • Statistical mechanics of nonequilibrium fluids
      • Quantum mechanics for the design of new materials.

      Associate Professor Idriss Blakey

      • Plasmonic chemical dosimeters
      • Surface modification of natural polymers

      Professor Tom Davis

      • Development of novel nanomedicines to inhibit pathological formation of amyloid plaques in Alzheimer’s disease.
      • Understanding the effect of gut-bacterial amyloids on amyloid plaques formation in Alzheimer’s disease.
      • Translocation of bacterial amyloids from gut to the brain and its implications in Alzheimer’s disease.
      • Development of novel nanomedicines against bacterial amyloids
      • Development of superior sentinel lymph node mapping magnetic tracers for the clinical detection of lymph node metastasis
      • Engineered polymeric and inorganic nanoparticles and their interaction with vasculature in diseases

      Professor Stephen Mahler

      • Development of intracellular delivery strategies for antibody therapeutics
      • Discovery of novel functional antibodies against a human transcription factor cancer target
      • Discovery of blocking antibodies for Angiotensin type II receptor.
      • Expression of antibodies in yeast 

      Associate Professor Jessica Mar

      • Developing new bioinformatics methods for single cell RNA-sequencing data
      • Understanding ageing through genome-wide gene expression datasets
      • Separating signal from noise - benchmarking bioinformatics methods to identify biology from big data

      Dr Shyuan Ngo

      • Developing novel models for motor neuron disease
      • Name of Honours Project: Energy dynamics in health and disease

      Professor Kris Thurecht

      • Polymer vectors for gene delivery
      • Polymer Theranostics: Imaging a Treatment in vivo.

      Professor Andrew Whittaker

      • Novel Biologically-Responsive MRI Agents
      • MRI Imaging Agents for Disease Detection
      • Light, pH and Ion Responsive Hydrogels
      • Nanofunctional Surfaces for Control of the Biological Interface 
      • Understanding Effect of Architecture of Fluoropolymers on Their 19F MRI Properties
      • Preparation and Application of Precise-Defined Polymers
      • Design of Photo-patternable Thermal/Electrical Active Hydrogel as Smart Windows for Reducing Energy Consumption
      • Protection and controlled release of small molecules
      • Photo-directing Self-assembly of Block Copolymers as a Novel Lithography Technology for Next-generation Chips Manufacturing

      Professor Ernst Wolvetang

      • Identifying the chromosome 21 genes that drive accelerated ageing in Down syndrome stem cells
      • Modelling novel childhood leukodystrophies
      • Peroxisomes and Ataxia telangiectasia

      Professor Chunxia Zhao

      • Precision-engineered hybrid core-shell materials for drug delivery
      • Development of novel bio-inspired biomolecules for controlling colloidal stability

       

      What to do

      1. Select the Honours project advisor name to download a PDF document with contact details and additional project information.
      2. Contact the project advisor directly to discuss the project and arrange a meeting or visit to the AIBN lab.

      Contact 

      Kahlia Bartley
      AIBN Engagement Officer
      aibn.events@uq.edu.au
      07 334 64215

      Apply

      To apply to study at AIBN please follow the application process.

      Student Enquiries

      If you have general enquiries about studying at AIBN please contact our RHD Team

      rhd.aibn@uq.edu.au

      Student information