Metallo-Supramolecular Materials for Chiral Discrimination and Enantiomeric Separation. Separating mixtures of molecules is one of the most enduring challenges in the chemical sciences and accounts for a significant cost burden in many industrial applications. This project aims to design and prepare new chiral self-assembled materials that contain cavities of predictable sizes and shapes. These materials, including molecular capsules, cages and network solids, will act to selectivity bind differ ....Metallo-Supramolecular Materials for Chiral Discrimination and Enantiomeric Separation. Separating mixtures of molecules is one of the most enduring challenges in the chemical sciences and accounts for a significant cost burden in many industrial applications. This project aims to design and prepare new chiral self-assembled materials that contain cavities of predictable sizes and shapes. These materials, including molecular capsules, cages and network solids, will act to selectivity bind different chemical substrates within their chiral encapsulated spaces, thus enabling the straight-forward separation of racemic mixtures of molecules. Small molecules with enantiomeric purity are a fundamental requirement as starting materials for drug development and a wide range of pharmaceutical applications.Read moreRead less
Targeted synthesis of porous materials towards gas sorption and separation. Targeted synthesis, using a building block strategy and computational design, is an efficient method for controlled synthesis of porous materials. This project uses this method to synthesise porous materials with permanent functional pores for separating and storing fuels and greenhouse gases, addressing demanding energy and environmental problems.
Next generation high sensitivity polymeric Extreme Ultraviolet (EUV) resists. Each generation of computer we purchase has faster processors, larger memory and is smaller and cheaper than the preceding model. However the annual improvements are at risk due to inherent problems with existing technologies, so in this project we will produce technologies that will enable the next generation of energy-efficient, faster computers.