Discovery Early Career Researcher Award - Grant ID: DE170101403
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Alloy catalyst design for synthesis of graphene and boron nitride sheets. This project aims to use computational methods to determine the optimal catalyst for growth of high quality, continuous films, a crucial scientific problem in the synthesis of two dimensional materials. It will use first-principles calculations to explore the growth of graphene and hexagonal boron nitride on several designed alloy catalysts and develop a physical model to understand the mechanism of the chemical vapour dep ....Alloy catalyst design for synthesis of graphene and boron nitride sheets. This project aims to use computational methods to determine the optimal catalyst for growth of high quality, continuous films, a crucial scientific problem in the synthesis of two dimensional materials. It will use first-principles calculations to explore the growth of graphene and hexagonal boron nitride on several designed alloy catalysts and develop a physical model to understand the mechanism of the chemical vapour deposition growth of the materials. The alloy catalyst design is expected to lead to experimental routes to synthesise high-quality and large-area graphene and hexagonal boron nitride films and accelerate the industrial application of two-dimensional nanomaterials. This will promote their application in catalysis, sensors, electronics, energy storage and increase Australia’s competitive advantage in synthesis of high-performance materials.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101268
Funder
Australian Research Council
Funding Amount
$386,820.00
Summary
Stochastic mathematical modelling of the Wnt signalling pathway. The Wnt signalling pathway is pivotal in multicellular organisms, regulating cellular processes such as proliferation, apoptosis and migration. Faulty Wnt signalling is associated with degenerative diseases, developmental disorders and cancers and is therefore a potential target for therapeutic drugs. This project will perform a stochastic spatial simulation of the Wnt signalling pathway which will be matched to experimental data. ....Stochastic mathematical modelling of the Wnt signalling pathway. The Wnt signalling pathway is pivotal in multicellular organisms, regulating cellular processes such as proliferation, apoptosis and migration. Faulty Wnt signalling is associated with degenerative diseases, developmental disorders and cancers and is therefore a potential target for therapeutic drugs. This project will perform a stochastic spatial simulation of the Wnt signalling pathway which will be matched to experimental data. The model will be extended to integrate with the cell cycle. Increased proliferation in tumours has been linked to mutations in Wnt components. Using the extended model, the effect of Wnt-targeting therapeutic cancer drugs on cancer cell proliferation rates will be predicted and compared to experiments.Read moreRead less