Discovery Early Career Researcher Award - Grant ID: DE170101170
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Electronic structure on both sides of the Fermi level in molecular material. This project aims to develop an inverse photoemission spectrometer to elucidate the electronic properties of molecular materials. In tandem with traditional photoemission, the spectrometer will measure the electronic structure of small molecules for organic electronics and two-dimensional graphene-analogous polymers, providing information critical to their development and use. The instrument is expected to bring critica ....Electronic structure on both sides of the Fermi level in molecular material. This project aims to develop an inverse photoemission spectrometer to elucidate the electronic properties of molecular materials. In tandem with traditional photoemission, the spectrometer will measure the electronic structure of small molecules for organic electronics and two-dimensional graphene-analogous polymers, providing information critical to their development and use. The instrument is expected to bring critical insight to the burgeoning field of molecular materials, with potential widespread applications from energy conversion to sensing and electronics, with benefits across sectors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100087
Funder
Australian Research Council
Funding Amount
$410,000.00
Summary
Advanced Macromolecular Materials Characterisation Facility (AMMCF). Advanced macromolecular materials characterisation facility: The facility will allow precise characterisation of (bio)macromolecular materials, from chemical structures and composition as a function of size or biodistribution, to film thickness in multi-layer materials, to material hydrophobicity and permeability. Novel information derived from these state-of-the-art instruments is highly valuable in understanding structure-pro ....Advanced Macromolecular Materials Characterisation Facility (AMMCF). Advanced macromolecular materials characterisation facility: The facility will allow precise characterisation of (bio)macromolecular materials, from chemical structures and composition as a function of size or biodistribution, to film thickness in multi-layer materials, to material hydrophobicity and permeability. Novel information derived from these state-of-the-art instruments is highly valuable in understanding structure-property relationships, which are crucial for the development of the next generation of advanced materials with applications in electronics, optics, sensors, membranes, nanocoatings, biomaterials and polymer therapeutics. This facility underpins the efforts of the participating institutes in increasing the quality and quantity of research outcomes.Read moreRead less
Surface modification of semiconducting organic charge transfer complexes with metal nanoparticles to create a new class of multifunctional materials. This project aims to deliver a facile and cheap method to produce a class of nanostructured composite materials to be used in applications which will have environmental and social benefits such as photocatalyst development for water purification, biosensing and the creation of antibacterial fabrics to prevent the spread of infection.