Sulfur-based materials for infrared optics and thermal imaging. This project aims to investigate novel sulfur polymers for use in infrared optics and thermal imaging. Current thermal imaging lenses are made in energy-intensive processes from expensive semiconductors and toxic chalcogenide glasses. In contrast, highly abundant elemental sulfur can be converted into polymers that are highly transparent to mid- and long-wave infrared light, providing a promising low-cost alternative. In developing ....Sulfur-based materials for infrared optics and thermal imaging. This project aims to investigate novel sulfur polymers for use in infrared optics and thermal imaging. Current thermal imaging lenses are made in energy-intensive processes from expensive semiconductors and toxic chalcogenide glasses. In contrast, highly abundant elemental sulfur can be converted into polymers that are highly transparent to mid- and long-wave infrared light, providing a promising low-cost alternative. In developing this technology, expected outcomes include novel methods to manufacture polymers from low-cost sulfur and their use as lenses for thermal imaging. Significant benefits are expected, such as access to low-cost, recyclable materials for thermal imaging required in surveillance, diagnostics, and spectroscopy.Read moreRead less
Faster, greener, stronger: a new approach to synthesis of polymer materials. The project will investigate new approaches towards polymer material synthesis in the complete absence of hazardous solvents, with the aim of creating materials that have superior physical or chemical properties compared to those prepared using existing methods. This project is significant for driving advances in material design and characterization using simple starting materials and environmentally sustainable conditi ....Faster, greener, stronger: a new approach to synthesis of polymer materials. The project will investigate new approaches towards polymer material synthesis in the complete absence of hazardous solvents, with the aim of creating materials that have superior physical or chemical properties compared to those prepared using existing methods. This project is significant for driving advances in material design and characterization using simple starting materials and environmentally sustainable conditions. Expected outcomes include the production of unique nanomaterials, hydrogels and polymer monoliths with targeted applications, in addition to advances in 3D printing. This project will significantly benefit the sustainable material manufacturing industry into the future.Read moreRead less