Material Transfer Agreements and Open Science in the Genome Era. Research paradigms are changing rapidly in the Genome Era. Open access databases are increasingly popular and are required by public funding agencies. The role of material transfer agreements (MTAs) in this open access era is not clear. This project aims to assess the extent to which MTAs facilitate exchanges of biological materials between organisation in Australia and internationally. The project will assess whether MTAs are refl ....Material Transfer Agreements and Open Science in the Genome Era. Research paradigms are changing rapidly in the Genome Era. Open access databases are increasingly popular and are required by public funding agencies. The role of material transfer agreements (MTAs) in this open access era is not clear. This project aims to assess the extent to which MTAs facilitate exchanges of biological materials between organisation in Australia and internationally. The project will assess whether MTAs are reflecting the open data access movement or maintaining traditional closed proprietary practices. The project will make policy, ethical and legal recommendations for the development of MTAs to promote exchange of materials nationally and internationally and to facilitate the developing collaborative research culture. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101617
Funder
Australian Research Council
Funding Amount
$330,000.00
Summary
Novel Three Dimensional Porous Boron Nitride Foam for Water Cleaning. This project aims to develop new three-dimensional (3D) porous nanomaterials of boron nitride (BN) foam with excellent sorption properties for water purification. New chemical synthesis approaches will be used to produce 3D porous BN foams with high porosity, large surface area and high mechanical stability leading to a high adsorption capacity, easy regeneration and excellent recycle ability for water purification. The expect ....Novel Three Dimensional Porous Boron Nitride Foam for Water Cleaning. This project aims to develop new three-dimensional (3D) porous nanomaterials of boron nitride (BN) foam with excellent sorption properties for water purification. New chemical synthesis approaches will be used to produce 3D porous BN foams with high porosity, large surface area and high mechanical stability leading to a high adsorption capacity, easy regeneration and excellent recycle ability for water purification. The expected outcomes include a new class of light absorbent materials, new production techniques and a high efficiency water cleaning technique.Read moreRead less
Theoretical modelling study of thin film permeability. Loss of water from open storages through evaporation exceeds 40 per cent. This project will study the structure, stability and permeation properties of the protective ultra-thin layers. The knowledge will help design novel evaporation suppressants which will drastically reduce water losses and will be crucial for new membrane and drug delivery technologies.