2D nanomaterial heterostructures for photocatalytic hydrogen production. This project aims to develop two-dimensional (2D) nanomaterial heterostructures as photocatalysts for hydrogen production from the liquid carrier of methanol. In addition to transformational photocatalytic technology to utilise Australian raw resources, this project expects to generate new knowledge in the areas of photochemistry, materials science and nanotechnology. These should not only expand the applications of 2D nano ....2D nanomaterial heterostructures for photocatalytic hydrogen production. This project aims to develop two-dimensional (2D) nanomaterial heterostructures as photocatalysts for hydrogen production from the liquid carrier of methanol. In addition to transformational photocatalytic technology to utilise Australian raw resources, this project expects to generate new knowledge in the areas of photochemistry, materials science and nanotechnology. These should not only expand the applications of 2D nanomaterials to a new domain of photocatalysts, but also may eventually lead to new industry advances in 2D nanomaterials for a ‘hydrogen economy’. Read moreRead less
Novel nonlinear functional analysis methods for singular and impulsive boundary value problems. This project aims to develop innovative functional analysis theories and methods to study various complex nonlinear boundary value problems, with particular focus on singular and impulsive problems. The outcomes of this project aims to enhance Australia’s capability of tackling complex nonlinear science and engineering problems using sophisticated mathematical methods. This project aims to also provid ....Novel nonlinear functional analysis methods for singular and impulsive boundary value problems. This project aims to develop innovative functional analysis theories and methods to study various complex nonlinear boundary value problems, with particular focus on singular and impulsive problems. The outcomes of this project aims to enhance Australia’s capability of tackling complex nonlinear science and engineering problems using sophisticated mathematical methods. This project aims to also provide engineers and scientists with a theoretical base and simulation technique for the study and optimal control of impulsive systems and processes involving nonlinear singularity.Read moreRead less
Advanced macromolecular engineering: novel approaches to self-directed assembly and vesicle formation. The aim of this project is to develop new approaches in nanotechnology for the preparation of well-defined polymeric particles. The research will result in the development of new methodology which has the potential to impact areas of commercial interest including those in the health-care sector.
Transforming carbon onions into nanodiamond: technological and astrophysical implications. This project will develop a novel approach for converting carbon into nanometre-sized diamond. Control of the process will lead to a new technology for making diamond coatings and insight into how nanodiamonds form in space.