| P06 | Bernice Currie – University of Pretoria Flow Synthesis and Application of 2,2,5,5-Tetramethyltetrahydrofuran in Organic Reactions |
| P07 | Olly Bayley – University of Amsterdam RoboChem-Flex: A Flexible and Affordable Self-Driving Lab for Automated Reaction Optimization |
| P08 | Yi Chen – Tsinghua University Process Intensification of Condensation Reactions via Activated-Carbon-Based Solid Bases in a Micro-Packed Bed Reactor |
| P09 | Elia Savino – University of Amsterdam Empowering Chemists with Data Driven Optimization Techniques |
| P10 | Javier Mazuela – Johnson & Johnson Innovative Medicine Automated Alkylation of Heteroaromatic Thioethers with Organozinc Reagents for Library Synthesis |
| P11 | János Máté Orosz – Budapest University of Technology and Economics Design and Evaluation of Robust 3D Printed Flow Chemical Reactors |
| P12 | Bence Heller – Budapest University of Technology and Economics Design and Characterization of a 3D Printed Continuous Flow Photoreactor |
| P13 | Ákos Ferenczi – Budapest University of Technology and Economics Flow Synthesis of Seladelpar Precursor in 3D Printed Reactors |
| P14 | Péter Szemesi – Gedeon Richter Plc. Continuous-flow synthesis of aripiprazole through the safe utilization of in situ generated THF hydroperoxide |
| P15 | Flórián Bencze – University of Pécs Reduction of Variously Functionalized Nitroxides Through Catalytic Flow Synthesis |
| P16 | Antoine Coeuillas & Aurore Ceuninck – INSA Rouen Normandie Process Intensified Continuous Flow Synthesis of Propofol |
| P17 | Yang Tianci – Tsinghua University Continuous and Selective Hydrogenation of Aromatic Amines to Alicyclic Amines: Process Optimization and Reaction Kinetics |
| P18 | Jisong Zhang – Tsinghua University Continuous reductive amination to synthesize primary/secondary amines with high selectivity in flow |
| P19 | Michele Desiante – University of Liège Self-optimizing continuous flow synthesis of phosphate esters |
| P20 | Toby Maccormack – University of Nottingham Using Magnetron Sputtering to Develop Heterogeneous Catalysts for Gas-Liquid Hydrogenation in Flow |
| P21 | Diana Zele – Heriot-Watt University The Development of New Automated Flow Chemistry Approaches to Synthesise Porous Organic Molecules |
| P22 | Sandra Bartoli & Alessio Stefanini – Lusochimica SpA Application of Flow Biocatalysis to a Crucial Step of Nebivolol Synthesis |
| P23 | Alexey N. Butkevich – Max Planck Institute A compact setup for in-flow Stern-Volmer analysis with syringe pump reagent delivery |
| P24 | Zihan Li – Tsinghua University Efficient synthesis of NiAl-LDH-derived catalysts in a microreactor for selective hydrogenation of nitriles |
| P25 | Simone Marchetti – Universitat Jaume I 3D-Printed Platforms for Enzyme Immobilization Screening and Direct Translation into Continuous-Flow Biocatalysis |
| P26 | Maite Molins Colomer – University of Queensland & Ramon Llull University Biphasic Electrochemical Oxidation of Alcohols with Continuous Electrolyte Recycling |
| P27 | Maxime Leclere – INSA Rouen Normandie Combining synthesis and crystallization in continuous flow for the production of Ibuprofen |
| P28 | Luis David Lisintuña Cisneros – Universitat Jaume I Reac-Discovery: AI-Driven Design, Fabrication and Optimization of 3D-Printed Catalytic Flow Reactors |
| P29 | Firdaus Parveen – University of Liverpool Engineering the size and morphology of Porous Organic Cage Cocrystal via Continuous Flow Methodology |
| P30 | Mónica Martínez-Aguirre – Imperial College London [Co2(CO)8] Photocatalized Carbonylation Reactions in Flow |
| P31 | Mingqi Huang – Imperial College London AI-Directed Flow Synthesis of Fluoroalkene Chemical Feedstocks from Trifluoromethane (HFC-23) |
| P32 | Matt Takle – University of Leeds Autonomous Optimisation of Chemoenzymatic Cascades in Continuous Flow |
| P33 | Shrinivas Jahagirdar – University College Dublin Fast Hydrogenation: Systematic development and optimisation of hydrogen reductive processes in a Corning Advanced-FlowTM Reactor |
| P34 | Alessia Bianchi – Eindhoven University of Technology High-Accuracy Heat Transfer Model for intensified temperature sensitive photocatalysed reactions in a RS-SDR |
| P35 | Schubert Fernandes & Theodore Lunny – University of Nottingham Transient Ramp Experiments for the Determination of Kinetic Parameters |
| P36 | Benjamin Holland – University of Nottingham Enabling Sustainable Continuous Crystallisation through Inline Analytics and Feedback Control |
| P37 | Baran Ozveren – INSA Rouen Normandie Taming the Halogen Dance of Bromo(Thi)azoles by Mean of Flow Microreactors |
| P38 | Daniel Mathwin – University of Leeds Chemoenzymatic Cascade Enabled by Continuous Liquid/Liquid Separations |
| P39 | Abid Barat – Imperial College London Kinetic Analysis of the Catalytic Wittig Reaction (CWR) and Translation to Flow |
| P40 | Mohammad Derakhshani – University for Continuing Education Krems Integrated Mass Flow Meter Inside an Electrochemical Flow Reactor |
| P41 | Filippo Begal – Fraunhofer Institute for Chemical Technologies Comprehensive application of electroanalytic data to reaction discovery and optimization in flow electrosynthesis |
| P42 | Rowan M. Bailey – Imperial College London Organophotoredox Hydrodefluorination of Trifluoromethylarenes |
| P43 | Rouven Fritzius – Justus Liebig University Giessen Bioisosteric sulfoxonium ylides as a molecular platform for accessing thiazole derivatives using flow chemistry |
| P44 | Christian Wolf – Justus Liebig University Giessen Synthesis and analysis of reduced aromatic species |
| P45 | Patrick Löb – Fraunhofer Institute for Microengineering and Microsystems IMM Towards Self-Optimizing Synthesis of Organometallics in Flow |
| P46 | George Lyall-Brookes – University of Liverpool Additive Free Aromatic Bromination in Flow |
| P47 | Paul Wiebe – Justus Liebig University Giessen Rapid-Access to Sulfoxonium Ylides Using a Packed-Bed Reactor |
| P48 | Anabela Ljubić – PLIVA Hrvatska d.o.o From Batch to Flow: Modelling-Driven Optimization of Vilsmeier Formylation |
| P49 | Olexandr Ye. Pashenko – Enamine Ltd Commercial-Hardware 365 Nm Led Flow Synthesis of Cubane-1,4-Dicarboxylates Enables Preparative Access to Cuneane Carboxylic Acids |
| P50 | Viacheslav V. Pendiukh – Enamine Ltd Flow-Enabled Diazomethane / Diazoketone Platform for Rh-Free Photochemical Access to Chiral 3-Azetidinones and 3-Pyrrolydones |
| P51 | Giada Moroni – TU Wien Divergent Flow Synthesis of Flavones and Aurones Using Carbon Monoxide |