Projects

Data-driven molecular design

A white, organic, hard-looking lattice formed over a dark, rock-like surface against a black background.

Accelerating carbon biomineralisation in seawater to help reduce atmospheric carbon dioxide

Co-funded by AEB and CarbonLock FSPs, this project looks at mimicking natural processes to speed-up carbon capture.

Using neural networks to design biosensors

High-throughput and automated biosensor design using artificial intelligence and machine learning.

A pile of plastic bottles with an illustration of an enzymatic process underway.

Engineering bioplastic-degrading enzymes

Enabling self-degrading plastics and recycling by engineering bio-plastic degrading enzymes.

Innovative bioproduction platforms

Blue water swirls around in a tornado shape

AI-designed components for improved bioreactor efficiency and scalability 

Currently, large bioreactors are energy intensive to run. Our team is researching AI designed static mixers to enhance bioreactor efficiency.

A microscopy shot of microalgae, which show up green against a dark background.

Exploring novel microalgae as bioplastic factories

Microalgae have the potential to provide efficient, environmentally friendly bioproduction processes. Can they help solve plastic pollution?

Predicting bioactive molecules for plant health and agricultural applications

A platform for functional prediction and validation of undiscovered secondary metabolites in Actinobacteria.

Leveraging yeast as a platform for enhanced protein production

Creating new advanced engineering biology platforms to enhance protein production in yeast.

Interdisciplinary decision-making

A scientist wearing PPE holds a beaker containing biofuels.

Technoeconomic transitions of the circular economy in engineering biology

Our research explores how engineering biology can accelerate the transition to a circular economy, with a focus on biofuels.

Strategic pathways for sustainable transitions in biomanufacturing

We are aligning sustainable transitions in biomanufacturing with goals in regional development, circular economy, food security and climate.

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Ensuring equity and access when integrating AI in engineering biology

As artificial intelligence plays a greater role in engineering biology, our researchers investigate arising equity and access issues.

A woman wearing an aqua shirt and an akubra hat looks out from a field of crops toward a storm in the distance.

Reassessing risk in decision-making on engineering biology 

Engineering biology can help us in reassessing risk and its relationship to opportunity and responsibility.

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A circular bio-economy system for equitable access and benefit-sharing

Complex but necessary: how we transform decision-making to deliver more equitable benefits from Australian bio-innovation.

An assortment of different coloured building blocks are jumbled together in a pile.

The role of law in ensuring effective technical standards in engineering biology 

Technical standards in engineering biology will help accelerate innovation – but IP and proprietary regimes may impact their effectiveness.

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Human factors affecting the uptake of emerging biotechnologies

Understanding public, industry and regulator perceptions of emerging biotechnologies to facilitate their uptake by society.

The sun is setting over a beautiful bay, the light catches a jetty leading out to a small wharf where some small boats are moored. The sky is blue with a few fluffy clouds.

Applying Indigenous Australian biocultural knowledge and values in synthetic biology 

Entering into cross-cultural dialogue with Indigenous Australians about novel biotechnologies.

A person's hand holds a dropper from a bio-reactive COVID-19 test, preparing to release the liquid into the container. The test sits on a textured wooden surface and the test packaging rests in the background.

Understanding health choices around novel biotechnologies

Decision-making and trade-offs in the adoption of novel personalised health innovations.

Economic opportunities for advanced engineering biology solutions in a net zero emission future

Understanding economic opportunities for advanced engineering biology in the transition towards net zero.

Institutional dimensions of deploying advanced bioengineering solutions in agriculture

What institutional aspects need to be considered when introducing advanced bioengineering solutions in agriculture?

Development of a technoeconomic framework for microalgae-based biopolymer production

Informing decision making for algae-based processes through a technoeconomic framework.