| Posters: |
 Continuous Flow Synthesis in Monolithic Reactors |
| Curtius Rearrangement as a Continuous Flow Process |
| Continuous flow synthesis of hydroxamic acids |
| Applications of Flow Synthesis in Medicinal Chemistry |
| Flow Chemistry for Organic Synthesis |
| Fully Automated Synthesis of Secondary Sulphonamides in a Binary Flow-Through Reactor System |
| |
| Published Papers: |
| The Use of Diethylaminosulfur Trifluoride (DAST) for Fluorination in a Continuous-Flow Microreactor |
| Marcus Baumann, Ian R. Baxendale, Steven V. Ley |
| A modular flow reactor for performing Curtius rearrangements as a continuous flow process |
| Marcus Baumann, Ian R. Baxendale, Steven V. Ley, Nikzad Nikbin, Christopher D. Smith and Jason P. Tierney |
| Azide monoliths as convenient flow reactors for efficient Curtius rearrangement reactions |
| Marcus Baumann, Ian R. Baxendale, Steven V. Ley, Nikzad Nikbin and Christopher D. Smith |
| A flow reactor process for the synthesis of peptides utilizing immobilized reagents, scavengers and catch and release protocols |
| Ian R. Baxendale, Steven V. Ley, Christopher D. Smith and Geoffrey K. Tranmer |
| Fully Automated Flow-Through Synthesis of Secondary Sulfonamides in a Binary Reactor System |
| Charlotte M. Griffiths-Jones, Mark D. Hopkin, Daniel Jönsson, Steven V. Ley, David J. Tapolczay, Emma Vickerstaffe and Mark Ladlow |
| Continuous Flow Ligand-Free Heck Reactions Using Monolithic Pd [0] Nanoparticles |
| Nikzad Nikbin, Mark Ladlow and Steven V. Ley |
| Tagged phosphine reagents to assist reaction work-up by phase-switched scavenging using a modular flow reactor |
| Christopher D. Smith, Ian R. Baxendale, Geoffrey K. Tranmer, Marcus Baumann, Stephen C. Smith, Russell A. Lewthwaite and Steven V. Ley |
