Anion receptors with high selectivity in aqueous environments. This project aims to develop neutral anion receptors that can bind to anions such as chloride and sulphate both selectively and strongly in water and transport them across membranes. These receptors have uses in the environment and medicine. Available receptors are limited to organic solvents or cannot discriminate between anions. This project will design hydrogen bonding motifs and incorporate them into water-soluble macrocycles tai ....Anion receptors with high selectivity in aqueous environments. This project aims to develop neutral anion receptors that can bind to anions such as chloride and sulphate both selectively and strongly in water and transport them across membranes. These receptors have uses in the environment and medicine. Available receptors are limited to organic solvents or cannot discriminate between anions. This project will design hydrogen bonding motifs and incorporate them into water-soluble macrocycles tailored to complement the size and shape of target anions. This project will provide innovative technologies for the detection of anionic species in areas including environmental (e.g. monitoring of sulphate levels in wastewater) and biomedical applications (e.g. detection of chloride concentrations in blood).Read moreRead less
Charting intercellular space. The space between the cells in our bodies is poorly understood. Chemical imbalances in this region are associated with many diseases, such as prostate cancer, Alzheimer's disease, sleep disorders and depression. This project combines synthetic chemistry and semiconductor technology to understand such imbalances, and their role in disease.