Structures and Properties of beta-R3M (M = Si, Ge, Sn)- and beta-Chalcogenyl-substituted Carbenium Ions. The benefits of this work are many-fold. The scientific knowledge gained will be invaluable to all scientists working in organic chemistry; mechanistic chemists who will learn from the science, and synthetic organic chemists who can utilise the results when planning strategies for the synthesis of complex drugs. Another major benefit of this research is in the training of young scientists. Th ....Structures and Properties of beta-R3M (M = Si, Ge, Sn)- and beta-Chalcogenyl-substituted Carbenium Ions. The benefits of this work are many-fold. The scientific knowledge gained will be invaluable to all scientists working in organic chemistry; mechanistic chemists who will learn from the science, and synthetic organic chemists who can utilise the results when planning strategies for the synthesis of complex drugs. Another major benefit of this research is in the training of young scientists. The students who work on this proposal gain invaluable experience in many areas of chemistry, ranging from synthetic chemistry to structural chemistry and theoretical chemistry. They will also gain experience in important physical techniques from NMR spectroscopy to X-ray crystallography.Read moreRead less
Approaching anion solvation from the bottom up: infrared studies of negatively charged complexes and clusters. We will employ novel spectroscopic strategies to probe the structures of mass-selected anion complexes and clusters in the gas-phase with the purpose of exploring non-covalent forces responsible for anion solvation. The work is motivated by a recognition that anions serve as key participants in a host of natural and industrial chemical processes, and that their physical and chemical pro ....Approaching anion solvation from the bottom up: infrared studies of negatively charged complexes and clusters. We will employ novel spectroscopic strategies to probe the structures of mass-selected anion complexes and clusters in the gas-phase with the purpose of exploring non-covalent forces responsible for anion solvation. The work is motivated by a recognition that anions serve as key participants in a host of natural and industrial chemical processes, and that their physical and chemical properties depend critically upon interactions with solvent molecules. The experimental results should serve as a critical test for computational approaches to describing anion-neutral interactions, and provide new insights into the behaviour of electrolytes, acid-base chemistry, and fundamental bimolecular reactions.Read moreRead less