Groundbreaking research is set to transform the construction industry with the development of sustainable, cost-effective and low-carbon emission building materials for modular and prefabricated housing.
Nearly $1 million in funding will support four innovative science projects, designed to strengthen collaboration between Queensland and German researchers to tackle key scientific challenges that help grow the bioeconomy.
It's part of a joint initiative between the Department of the Environment, Tourism, Science and Innovation (DETSI) and the Federal Ministry of Research, Technology and Space in Germany (BMFTR).
Through the Queensland-Germany Bioeconomy Collaborative Science Program, University of Southern Queensland Associate Professor Wahid Ferdous will work with the Fraunhofer Institute, Sika Deutschland and Composite Edge in Germany on a project which aims to develop bio-panels for roofs and walls.
"These bio-panels are made from bio-fibres and bio-resin that can replace traditional building panels that emit high levels of carbon emissions and do not decompose," Assoc Prof Ferdous said.
"This project is expected to lead to a more sustainable future for Queensland through the advancement of sustainable bio-based solutions, which will reduce waste and create new jobs.
"I look forward to working closely with my German counterparts to deliver impactful outcomes that benefit both regions and contribute to advancing sustainable bio-based technologies."
The Queensland-Germany Bioeconomy Collaborative Science Program provides grants of up to $250,000 to Queensland-based universities and research organisations' projects.
Queensland Chief Scientist Professor Kerrie Wilson highlighted the significance of this partnership in tackling global challenges and delivering economic, social and environmental benefits.
"This program not only strengthens our scientific ties with Germany but also positions Queensland as a leader in growing the global bioeconomy," Prof Wilson said.
"The four projects will explore scientific solutions that not only reduce our environmental impact but also build a more sustainable and prosperous future for generations to come."
The Bioeconomy funding department at the Federal Ministry of Research, Technology and Space (BMFTR) said the program between Germany and Queensland has proven to be a great success.
Four outstanding bilateral projects have been selected which exemplify the strong potential of our collaboration to advance innovative solutions for a sustainable bioeconomy.
| Organisation | Project title | Project description |
|---|---|---|
The University of Queensland |
Gas to food for an Innovative and Advanced Circular Bioeconomy - Production of Renewable Outputs |
This project aims to transforms waste gases into sustainable protein for animal feed and even human food, helping to reduce greenhouse gases, support eco-friendly farming, and improve global food security. |
The University of Queensland |
Engineering Pseudomonads for sustainable production of oleochemicals (BioOlé) |
This project aims to turn sugar industry by-products, like sugar cane and beet leftovers, into eco-friendly fats used to make everyday materials like plastics. By reducing reliance on petroleum and palm oil, it supports sustainability, cuts waste and helps protect the environment. |
University of Southern Queensland |
Development of high-performance and durable bio-composite sandwich panels for modular housing |
This project aims to create affordable, eco-friendly building panels for use in modular and prefabricated housing. |
The University of Queensland |
KILLFUNGI: Novel diterpene antimicrobials as new agricultural fungicides |
This project aims to create eco-friendly agricultural fungicides to protect crops, boost yields, and lower the carbon footprint of food production. |
