Fibrous fabrics with differential transplanar transport properties for moisture and water. The project develops a framework for the development of fibrous fabrics with desired differential transplanar transport properties for moisture and water, integrating various transport mechanisms with hierarchical microstructures of the fabrics. The results will lead to the development of new fabrics for the local and overseas apparel industry.
Biochemistry of tropoelastin: functional analysis of an essential cell-interactive domain. Elastin is ten times more durable than the best man-made synthetic rubbers because our bodies need to control life-threatening rips in skin, artery and lung. Warm-blooded animals use elastin to build diversely shaped elastic materials for multiple biological environments in these tissues. In this project, we will learn a lot more about the most preserved and functional part of elastin. These discoveries wi ....Biochemistry of tropoelastin: functional analysis of an essential cell-interactive domain. Elastin is ten times more durable than the best man-made synthetic rubbers because our bodies need to control life-threatening rips in skin, artery and lung. Warm-blooded animals use elastin to build diversely shaped elastic materials for multiple biological environments in these tissues. In this project, we will learn a lot more about the most preserved and functional part of elastin. These discoveries will increase our understanding of the grand architectural rules by which elastic protein-based structures are made. We will learn new ways to manage cell interactions in an elastic environment and define design rules to assist in the future design of new cell-binding, elastic, composite materials.Read moreRead less
Drawing out spider silk photonics and technology. We discovered certain spider webs are an optical device of amazing sophistication – the result of 136 million years of evolution. New photonic and electron microscopy techniques will measure the unique optical and materials properties of the webs, and the resulting knowledge will have high impact for advanced, self- assembled, photonic materials.