New reactivity from unusual main group compounds. This project will develop new, fundamentally important, yet unusual main group compounds and investigate their reactivity. The project will lead to important fundamental advance in main group chemistry and will form the basis for cheaper and cleaner future synthetic methodologies and technologies.
Novel hydride complexes for chemical applications. Many main group elements are abundant, cheap, generally less harmful and sometimes even biocompatible compared with most other elements from the periodic table. This project will develop a range of fundamentally important well-defined molecular s-block metal and non-metal hydride complexes and investigate their chemistry and properties. These underdeveloped but emerging compound classes are of significant importance for chemical synthesis, hydro ....Novel hydride complexes for chemical applications. Many main group elements are abundant, cheap, generally less harmful and sometimes even biocompatible compared with most other elements from the periodic table. This project will develop a range of fundamentally important well-defined molecular s-block metal and non-metal hydride complexes and investigate their chemistry and properties. These underdeveloped but emerging compound classes are of significant importance for chemical synthesis, hydrogen storage and catalysis. The results emerging from this project will contribute towards the development of greener and more sustainable technologies.Read moreRead less
A new era for modern main group chemistry: from landmark molecules towards the replacement of transition metal based technologies. This project will develop innovative approaches to access fascinating chemical compounds that were previously thought incapable of existence. These highly reactive, yet non-toxic systems will be exploited as cheap, environmentally benign replacements for the expensive and toxic metal based chemicals that are currently used in numerous technologies.