Advanced photonics with flexible pixels in liquid crystals. Similar to conventional pixels in liquid-crystal displays, the localised micro-defects in liquid crystalline structure can be generated by laser beams and immersed particles. The project will create such reconfigurable, or flexible, pixels for efficient control of optical signals underpinning the development of advanced photonic devices.
Meta-microscopy of insect tissue: How nature grows bicontinuous nanosolids. Several butterfly species grow a complex nano-sculptured matrix whose chiral network structure confers remarkable optical properties, including jewel-like reflections. The formation process remains mysterious and a spectacular case of bottom-up self-assembly at far larger scales than accessible in the lab. The project aims to decipher this process, by (a) tomography of a species where arrested growth sites represent time ....Meta-microscopy of insect tissue: How nature grows bicontinuous nanosolids. Several butterfly species grow a complex nano-sculptured matrix whose chiral network structure confers remarkable optical properties, including jewel-like reflections. The formation process remains mysterious and a spectacular case of bottom-up self-assembly at far larger scales than accessible in the lab. The project aims to decipher this process, by (a) tomography of a species where arrested growth sites represent time-frozen snapshots of the development, and (b) by a combination of micron-resolved in-vivo microscopy of a developing butterfly wing with a growth model to infer nanometer-scale information. This insight will lead to blueprints for self-assembly strategies and shed light on function and form of inner-cellular membranes. Read moreRead less
Theory and synthesis of self-assembled polyfunctional supramolecular fibres and associated soft materials. Liquid crystals (LCs) and molecular fibres are essential structural and functional components of living systems. A new class of hybrid materials, combining LC and fibrous aspects, will be developed, based on self-assembly of 'linactants', invented by the CI and colleagues.
Hofmeister at work. Implementation of a paradigm shift in physical chemistry. Standard tools of measurement in environmental, industrial, colloid, nano and biosciences rest on classical theories which have been shown to be badly flawed. The faults have been remedied to give a new, predictive and usable foundation that amounts to a paradigm shift of immediate importance to many applications.