Professor Thomas Wirth
Projects as PI
- A dynamic and flexible manufacturing platform, intensifying biocatalysis for fragrance and API production (16/03/2021 - 15/01/2023)
- A dynamic and flexible manufacturing platform, intensifying biocatalysis for fragrance and API production (16/03/2021 - 15/01/2023)
- Biologic activities of allicin and ajoene analogues (01/04/2015 - 31/03/2018)
- Development of a sterile microfluidic system for the synthesis of radiopharmaceuticals (01/05/2010 - 31/03/2015)
- Development of a versatile continuous flow electrochemical reactor (01/01/2018 - 31/12/2018)
Projects as Co-Investigator
- Biologic activities of allicin and ajoene analogues (01/04/2015 - 30/03/2018)
- Cardiff centre for physical organic chemistry (01/04/2006 - 31/03/2011)
- CO2-FLP-Flow electrochemistry (01/09/2022 - 31/03/2024)
- Developing continuous electro organic catalysis - it's got potential (27/11/2017 - 31/01/2022)
- Development of novel semiochemicals for crop protection (01/11/2018 - 30/09/2022)
Research Datasets
- 1,3-Carboboration of iodonium ylides - Gazis TA, Mohajeri Thaker BAJ, Willcox D, et al. (2020). Cardiff University. 10.17035/d.2019.0090828346. Organometallic complexes
- Ajoene Synthesis - spectral and experimental data - Silva F, Wirth T (2019). Cardiff University. 10.17035/d.2018.0056888714. Chemical Synthetic Methodology
- B(3,4,5-F3H2C6)3 Lewis acid-catalysed C3-allylation of indoles: data - Alotaibi N, Babaahmadi R, Pramanik M, et al. (2023). Cardiff University. 10.17035/d.2023.0252049034. Acid/base Catalysis
- Borane promoted aryl transfer reaction for the synthesis of α-aryl functionalised β-hydroxy and β-keto esters- data - Kaehler T, Lorenz J, Ould DMC, et al. (2022). Cardiff University. 10.17035/d.2022.0177945377. Addition Reactions Reaction Mechanisms
- Contrasting frustrated Lewis pair reactivity with selenium- and boron-based Lewis acids - Wilkins LC, Gunther BAR, Walther M, et al. (2017). Cardiff University. 10.17035/d.2017.0011648620. Chemical synthesis