Chemical Synthetic Methodology
Is-feysydd
- Addition Reactions
- Aldol
- Alkenes
- Alkynes
- Amination Reaction
- Annulation reactions
- Arenes
- Arynes
- Azides
- Baeyer-Villiger Reaction
- Boron reagents
- Carbenes
- Carbonylation
- Cascade Processes
- Catenanes
- Claisen rearrangement
- Cryptands/Cryptates
- Curtius rearrangment
- Cycloaddition reactions
- Cyclophanes
- Diels-Alder reaction
- Dihydroxylation
- Efficient synthesis
- Ene Reaction
- Epoxidation
- Friedel-Crafts
- Green synthesis
- Heavy element heterocycles
- Heck reaction
- Heterocyclic chemistry
- High Pressure Synthesis
- Hydroamination
- Hydrocarbon activation
- Hydrothermal Synthesis
- Imines
- Inorganic Host-guest chemistry
- Isomerisation
- Lanthanide reagents
- Lithium reagents
- Macrocycles
- Magnesium reagents
- Mannich reaction
- Metallocenes
- Metathesis reactions
- Michael Reaction
- Mitsunobu Reaction
- MOF synthesis
- Molecular Design
- Natural Product Synthesis
- Nazarov
- Nitrenes
- Olefination
- Organofluorine
- Organometallic syntheses
- Organosilicon reagents
- Pericyclic Processes
- Phosphorus reagents
- Photochemical synthesis
- Polycyclics
- Protecting Groups
- Radical reactions
- Rearrangements
- Ring Expansion/Contraction
- Ring Opening/Closing
- Rotaxanes
- Self-assembly
- Sigmatropic reaction
- Silicon chemistry
- Sonochemistry
- Staudinger reaction
- Sulfur reagents
- Supercritical Fluids
- Supramolecular chemistry
- Suzuki reaction
- Total Synthesis
- Transition metal reagents
- Vilsmeier reaction
- Wacker reaction
- Wittig reaction
Prosiectau
Setiau Data Cysylltiedig
- A Ball-Milling Enabled Reformatsky Reaction - Cao Q, Stark RT, Fallis IA, et al. (2019). Cardiff University. 10.17035/d.2019.0075438608. Chemical Synthetic Methodology
- Ajoene Synthesis - spectral and experimental data - Silva F, Wirth T (2019). Cardiff University. 10.17035/d.2018.0056888714. Chemical Synthetic Methodology
- Amplifying Solventless Synthesis: One-pot Multistep Mechanochemical Synthesis of Fluorinated Pyrazolones - Howard JL, Nicholson W, Sagatov Y, et al. (2017). Cardiff University. 10.17035/d.2017.0038572887. Chemical Synthetic Methodology
- B(C6F5)3-Catalyzed Direct C3 Alkylation of Indoles and Oxindoles - data - Basak S, Alvarez-Montoya A, Winfrey L, et al. (2020). Cardiff University. 10.17035/d.2020.0104936560. Chemical Synthetic Methodology
- Borane catalysed cyclopropenation of arylacetylenes - data - Stefkova K, Heard MJ, Dasgupta A, et al. (2021). Cardiff University. 10.17035/d.2021.0136187455. Chemical Synthetic Methodology Catalyst Characterisation