Responsive nanoporous organic cages. This project will generate advanced materials that are constructed from functional nanoscale building blocks. The general design principles developed in this work will be utilised to synthesise a nanoporous adsorbent system that is able to self regulate its physical properties through dynamic structural responses to its environment.
Improving solar energy utilisation by splitting water with visible light. The project seeks to improve solar-hydrogen fuel production via water splitting by addressing a fundamental scientific roadblock. By engineered nanostructures with controlled charge transfer abilities, the most desirable route to water splitting will be promoted; granting Australia an opportunity to develop a solar-based renewable fuel.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100109
Funder
Australian Research Council
Funding Amount
$530,000.00
Summary
Small molecule X-ray molecular structure elucidation facility. X-ray diffraction plays a key role in identification and molecular characterisation. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry, amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-t ....Small molecule X-ray molecular structure elucidation facility. X-ray diffraction plays a key role in identification and molecular characterisation. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry, amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-the-art research and training facilities for these techniques.Read moreRead less
Metal-organic frameworks as heterogeneous catalytic systems. Catalysts of industrial chemical processes that are soluble in the reaction mixture are often less stable and harder to separate from the products. This project will tackle these issues by integrating such catalysts into an open framework material that combines the advantages of both soluble and insoluble catalysts - a hybrid catalytic material.