Current active academic collaborations:
Prof. Jason Lynam: Time-resolved infrared spectroscopic analysis of catalytic reactions using earth abundant and sustainable metals.
Prof. Peter O’Brien: Development of improved methods for Csp2-Csp3 cross-coupling reactions using mechanistic insight, automated reaction screening and data analysis.
Prof. Julie Wilson: Data analysis of chemical reaction outcomes, particularly large reaction datasets.
Dr Jessica Hargreaves: Data analysis of chemical reaction outcomes, particularly large reaction datasets.
Dr. Charlotte Willans: Automation and electrochemical flow chemistry and technology.
Dr. Megan Halse: New nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI) methods for chemistry.
Dr. Jihong Zhu: Dexterous robot manipulation in a human centred environment with control and machine learning.
Dr. Will Unsworth: The development of new methods for the synthesis of functionalised, complex molecules with applications.
Prof. Neil Hunt: Ultrafast two-dimensional infrared (2D-IR) spectroscopy to determine the role of molecules in reactions.
Prof. Caroline Dessent: Novel combination of optical laser spectroscopy along with advanced mass spectrometry techniques to understand the fundamental properties of molecules.
Prof. Gideon Grogan: The identification, characterisation and application of new enzymes that have potential applications in biotechnology.
Prof. Richard Bourne: Automation and flow chemistry self-optimisation processes.
Dr. Simon Beaumont: X-ray Absorption Spectroscopic Analysis (XANES/EXAFS)- study of Pd3 clusters and Pd nanoparticles in cross-coupling catalysis.
Prof. José Luis Serrano Martínez: Preparation of palladium(II)imidate complexes and its applications as synthetic precursors and/or catalysts in cross-coupling reactions.
Dr. Anant R. Kapdi: Caged Phosphine ligands in catalysis, Strategies for Functional Nucleosides synthesis, and New Catalyst Development and Mechanism Elucidation.
Prof. Zhenyang Lin 林振陽: Theoretical and computational inorganic chemistry Structure, bonding and computer modelling in inorganic, organometallic, inorganic cluster and solid state systems Application of electronic structure calculations in the design of catalysts and other useful materials
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