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C-H to C-F using electrochemistry and gold catalysis. Gold offers great potential in chemical catalysis and this project will use a fascinating new class of gold compounds discovered by the CIs, to develop novel catalysts. Using this chemistry a series of gold(III) compounds with fluoride ligands will be prepared. The catalytic properties of these molecules will then be explored, with a particular focus on adding value to arene hydrocarbons. The ultimate goal of the project is development of new ....C-H to C-F using electrochemistry and gold catalysis. Gold offers great potential in chemical catalysis and this project will use a fascinating new class of gold compounds discovered by the CIs, to develop novel catalysts. Using this chemistry a series of gold(III) compounds with fluoride ligands will be prepared. The catalytic properties of these molecules will then be explored, with a particular focus on adding value to arene hydrocarbons. The ultimate goal of the project is development of new catalysts for the formation of carbon-fluorine bonds and the selective fluorination of organic
compounds. Fluorinated organic molecules are of critical importance in medicinal chemistry and new catalysts of this type offers the potential for better synthesis of medicines and diagnostic agents.Read moreRead less
Mycobacterial Cholesterol Degradation: A Unique Metabolic Weakness? This project aims to understand the use of the steroid cholesterol as a source of essential metabolic building blocks by bacteria. Cholesterol utilisation is a key feature of many bacterial pathogens which have evolved to survive in niche environments. By understanding the initial step in cholesterol degradation and the bioinorganic and bioorganic chemistry of the metalloenzymes that catalyse it, this work aims to develop strate ....Mycobacterial Cholesterol Degradation: A Unique Metabolic Weakness? This project aims to understand the use of the steroid cholesterol as a source of essential metabolic building blocks by bacteria. Cholesterol utilisation is a key feature of many bacterial pathogens which have evolved to survive in niche environments. By understanding the initial step in cholesterol degradation and the bioinorganic and bioorganic chemistry of the metalloenzymes that catalyse it, this work aims to develop strategies to block this activity. This will turn a key strength of these bacteria into a potent weakness and will generate the proof of principle and knowledge required for the future development of effective strategies to combat pathogenic bacteria.Read moreRead less