Novel Coatings For Steel. The aim of this project is to design coatings for steel that have high flexibility and high resistance to scatching and hardness. This will be achieved by the introduction of liquid crystalline phases in the coatings. The outcome will be a new generation of steel coatings with novel properties
Characterization of star nanogels by advanced transmission electron microscopy. This project will provide an excellent opportunity to combine research expertise from The Polymer Science Group at The University of Melbourne and The Polymer Morphology Group at North Carolina State University (NCSU) to develop and characterize novel star nanogels with unique macromolecular architectures. The success of the project will reveal the absolute structures of these molecules and the proposed studies are b ....Characterization of star nanogels by advanced transmission electron microscopy. This project will provide an excellent opportunity to combine research expertise from The Polymer Science Group at The University of Melbourne and The Polymer Morphology Group at North Carolina State University (NCSU) to develop and characterize novel star nanogels with unique macromolecular architectures. The success of the project will reveal the absolute structures of these molecules and the proposed studies are both intellectually challenging in the cutting-edge of leading research in the field and important to provide vital information for the design of new structures of these new materials for their application in many areas, such as drug delivery, new membrane formation, advance high density memory chips and possibly the next generation of automotive coating.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346891
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Characterization facilities for new macromolecular architectures. The proposed facility is essential for characterization of the new polymeric architectures such as copolymers for tissue engineering, nanogels for automotive paints and biodegradable polymeric packaging. The facilities include characterizations of (1) molar mass and molecular sizes of novel polymer architectures (MU); (2) viscoelastic mechanical properties of tensile, bending, bulk and flow (RMIT); and (3) thermal properties of c ....Characterization facilities for new macromolecular architectures. The proposed facility is essential for characterization of the new polymeric architectures such as copolymers for tissue engineering, nanogels for automotive paints and biodegradable polymeric packaging. The facilities include characterizations of (1) molar mass and molecular sizes of novel polymer architectures (MU); (2) viscoelastic mechanical properties of tensile, bending, bulk and flow (RMIT); and (3) thermal properties of compositions (CSIRO). These new polymeric architectures cannot be sufficiently characterized by existing facilities. The success of the project will significantly enhance the new macromolecular research and facilitate collaborations. This project also falls within the nano and biomaterials of the Designated Priority area of Research.Read moreRead less