Other Track AgendasFlow Chemistry Europe 2018: Emerging Themes and Trends in the Field | Flow Chemistry Europe 2018: Technologies, Companies and Commercialization |
Tuesday, 6 February 201808:00 | Conference Registration, Materials Pick-Up, Morning Coffee and Breakfast Pastries | 09:00 | Welcome Address by the Flow Chemistry Society Ferenc Darvas, Chairman, Flow Chemistry Society, Switzerland
| 09:10 | Conference Chairs Welcome to Flow Chemistry Europe 2018 Mimi Hii, Professor, Imperial College London, United Kingdom Oscar de Frutos, Research Advisor / Group Leader, Eli Lilly and Company, Spain
| | Session 1 |
| | 09:15 | | Keynote Presentation Practical and Scalable Flow Synthesis Ian Baxendale, Professor, Durham University, United Kingdom
Aspects of Flow Chemistry from various case studies conducted within our laboratories in Durham. |
| 10:00 | Recent Advances in Real Time Spectroscopy and Calorimetry for Monitoring Flow Chemistry Processes Stefan Lobbecke, Head of Department, Energetic Materials, Fraunhofer Institute for Chemical Technology, Germany
In this presentation we report on the development of spectroscopic and
calorimetric process analytical tools for the realtime monitoring of
chemical reactions in microfluidic processes.
| 10:25 | Continuous Manufacturing at Novartis Pharma Joerg Sedelmeier, Principal Scientist Process R&D Chemist, Novartis, Switzerland
A “toolbox approach” to address ambitious project timelines will be
presented. A platform for conducting organolithium chemistry in
continuous flow mode, covering the scales from medicinal chemistry to
later phase process development will be described. | 10:50 | Coffee Break and Networking in the Exhibit Hall | 11:00 | Flexible API Supply Technologies; Continuous Technologies for Transformational Change in API Development and Manufacturing Nick Thomson, Senior Director, Chemical Research and Development , Pfizer, Inc., United States of America
I will provide an overview of the Pfizer strategy for API continuous
development and manufacturing and examples of newly developed continuous
technologies and product applications. | 11:25 | An Open-Source Approach to Low Cost Automation in Flow Chemistry Matthew O'Brien, Lecturer in Organic Chemistry, Keele University, United Kingdom
This presentation will discuss an open-sourced approach to low-cost Automation in Flow Chemistry.
| 11:50 | New Chemical Applications in Continuous Flow Ryan Skilton, Research Scientist, Vapourtec Ltd
| 12:20 | Immobilized Catalytic Systems for Asymmetric Flow Processses Miquel A. Pericàs, Professor, Institute of Chemical Research of Catalonia (ICIQ), Spain
In this lecture we will discuss different strategies for the
modification of homogeneous ligands and catalysts, in order to make
possible its covalent immobilization. Recent examples of the
development of some immobilized, yet highly active catalytic species for
enantioselective processes will be presented, and the development of
continuous flow processes based on these immobilized species will be
discussed. | 12:45 | Lunch and Networking in the Exhibit Hall | 14:30 | Additive Manufacturing Applied to Advanced Reactor Engineering Victor Sans Sangorrin, Assistant Professor, University of Nottingham, United Kingdom
In this presentation, the latest developments in the employment of
additive manufacturing, also known as 3D printing, to manufacture micro
and mesoscale continuous-flow reactors with advanced features, including
advanced mixing, heat exchange and supported biocatalysts will be
presented. | 14:55 | 3D Printed Reactors: From the Design of Inert Reactors through to Catalytic Devices for Continuous Flow Stephen Hilton, Associate Professor, University College London School of Pharmacy, United Kingdom
In this lecture we will describe the design and development of novel stereolithography (SLA) 3D printed catalyst impregnated reactors for continuous flow and their rapid evolution from simple inert fused deposition modeling (FDM) congeners. Their use in the easy transition from batch chemistry to flow will also be discussed. | 15:20 | The Use of Optimization Algorithms in Flow Francois-Xavier Felpin, Professor, University de Nantes, France
We will discuss reaction optimizations in flow, using of a modified
Simplex algorithm. The beneficial properties of flow reactors associated
to the power of optimization algorithms for the fine-tuning of
experimental parameters, allowed reactions to proceed in conditions
unable to promote the coupling through traditional batch chemistry. | 15:45 | Sub-Micromolar Reaction Screening in Flow Neal Sach, Associate Research Fellow, Pfizer, United States of America
A novel segmented flow technology is presented that enables sub-µmol
scale reaction screening. This step change in scale, compared with
typical batch methods, enables the potential to examine over 1500
combinations (solvent, base, catalyst, and temperature) automatically in
24 hours using just 15mg of substrate. The presentation will
demonstrate the technology through a model Suzuki coupling in which over
5000 combinations were completed in 4 days to arrive at a scalable
process suitable for scale up, or scale-out. | 16:10 | Coffee Break and Networking in the Exhibit Hall | 16:30 | Flow Synthesis of Pharmaceuticals: Feeding into an Emerging Pharmaceutical Manufacturing Industry in South Africa Darren Riley, Senior Lecturer, University of Pretoria, South Africa
This talk will highlight efforts to develop robust syntheses of critical
pharmaceuticals and will highlight efforts to use flow chemistry as an
enabling technology to improve existing “batch” based process routes. | 16:55 | Contribution of Material Inputs for Advanced Microreaction Technology Dong Pyo Kim, Yonsan Chaired Professor, Pohang University of Science And Technology (POSTECH), Korea South
Advanced microreaction technologies have been achieved the best by chemistry and engineering together, rather than either alone. This talk shows typical cases of innovative reactor systems and process intensification by adopting multifunctional phenomena of new nanomaterials and nanostructures. | | Session 2 |
| | 17:20 | | Keynote Presentation Multiphase Flow Chemistry for Demanding Catalytic Reactions Claude de Bellefon, CNRS & CPE Lyon, University of Lyon, France
In the last decade, innovating micro- and milli-structured multiphase
reactors have been developed allowing high mass and heat transfer
performances and opening new process windows. When a solid catalyst is
needed, it is often involved as a thin film deposited on the reactor or
channel walls, offering poor catalyst content per volume of reactor.
Also, catalyst handling and changeover in case of deactivation are
difficult and/or expensive. To face these issues, multiphase
micro-packed bed reactors operating with powdered catalysts have been
proposed albeit at the expense of very high pressure drop. The
alternative concept of open cell solid foam reactor is now well
established for gas-solid reactions and more and more works are
performed for multiphase gas-liquid or gas-liquid-solid reactors. In the
presentation comparisons to other reactors are proposed in terms of
hydrodynamics, heat, mass and momentum transfer performances for
demanding multiphase gas-liquid and gas-liquid-solid reactions. In
particular, demanding hydrogenations and oxidations are performed with
the idea is to look for possible synergetic effects by combining G-L
segmented flows and open cell solid foams to surpass the
characteristics obtained in the two separated systems (low pressure
drop, enhanced mixing, good thermal behaviour and mass transfer
capacities). |
| 18:05 | Watching Homogeneous Catalysis with Real-time High Resolution Flow NMR Ulrich Hintermair, Whorrod Research Fellow/Professor, University of Bath, United Kingdom
I will present how operando reaction monitoring via continuous flow
on-line NMR spectroscopy enables rapid access to high-quality kinetic
data, and allows for mechanistic probe experiments leading to a better
understanding of the complex, dynamic processes occurring during
homogeneous catalysis in solution. | 18:30 | Poster Session with Pizza and Beer | 19:30 | Close of Day 1 of the Conference |
Wednesday, 7 February 201807:30 | Morning Coffee, Tea, Breakfast Pastries and Networking in the Exhibit Hall | 08:05 | Organic Electrochemistry in Extended Channel Flow Reactors Katherine Jolley, Research Fellow, Southampton University , United Kingdom
This talk will introduce a series of extended channel length
electrochemical flow reactors developed within the Brown group and
discuss some of the organic transformations we have applied them to. | 08:30 | Innovation in Catalytic Methodology Development through Flow Chemistry Timothy Noël, Professor, University of Amsterdam, Netherlands
In this presentation, we will give an overview of our catalytic
methodology development, exemplified by photoredox catalysis and C–H
activation chemistry, and how these synthetic methods were impacted by
continuous-flow microreactor technology. | 08:55 | Continuous Multistep Synthesis Involving Unstable Intermediates David Cantillo, Researcher, Graz University, Austria
In this presentation a series of examples of multistep reactions from
our group, in which the problems associated with highly reactive and
unstable intermediates have been solved via integrated continuous flow
processing, will be discussed. | 09:20 | (Photo)Chemical Conversion of Diazonium Salts in Flow Including Online NMR Analysis Thomas Rehm, Senior Scientist, Fraunhofer Institute for Microengineering and Microsystems IMM, Germany
Flow (photo)chemistry and online NMR analysis was applied to C-H
arylation reactions with diazonium salts under mild reaction conditions.
Excellent contacting in microreactors and contact-free online analysis
proved their benefit for fine chemical synthesis in flow. | 09:45 | ‘Flow Chemistry - From Concept to Implementation’ Charlotte Wiles, Chief Executive Officer, Chemtrix BV
A series of industrial case studies will be used to illustrate the way various companies have approached going from considering continuous flow through to manufacturing using the technique. The presentation will show that a multidisciplinary approach is required to achieve these goals as projects transition from the chemists’ domain to one led by chemical and mechanical engineers. The presentation will also touch on the regulatory aspect of transitioning from ‘batch to flow’, changing business models and the need for strategic partnerships. | 10:10 | Coffee Break and Networking in the Exhibit Hall | | Session 3 |
| | 10:30 | | Keynote Presentation Flash Chemistry: Flow Synthesis That Cannot Be Done in Batch Jun-Ichi Yoshida, Professor, Kyoto University, Japan
In 2005 we proposed the concept of flash chemistry, which is based on
not only flow chemistry but also micro space. Extremely short reaction
times, which range from seconds to submilliseconds, make the impossible
possible, opening new possibilities of chemical synthesis. Key
challenges in flash chemistry and the applications in laboratory
synthesis and industrial production will be discussed. |
| 11:15 | Enlarging the Capabilities of Flow Reactors by 3D-metal Printing Raf Reintjens, Principal Scientist Process Intensification, InnoSyn, Netherlands
The development of industrial micro reactors, encounters significant
hurdles in minimizing the complexity originating from the numbering-up
strategy, while achieving a performance cost ratio capable of competing
with existing reactor technologies. Viable solutions were found in the
combination of an adapted design strategy and a new manufacturing
technology and will be discussed in this presentation. | 11:40 | Photochemistry in Flow: New Avenue for Drug Discovery Jesus Alcazar, Principal Chemist, Janssen Research & Development, Spain
Flow Chemistry is becoming a usual tool for Medicinal Chemists at
Janssen worldwide. This has made us to consider what new tools can be
implemented to support Drug Discovery. In this lecture, new tools
applying photochemistry in flow will be disclosed and how they can be
used to access new chemical space and support the finding of novel
leads. | 12:05 | Upgrading of Bio-Sourced Platform Molecules Using Flow Chemistry Jean-Christophe Monbaliu, Lecturer, Center for Integrated Technology and Organic Synthesis, University of Liège, Belgium
This lecture illustrates our work in flow chemistry with bio-sourced
platform molecules. Selected examples deal with the upgrading of
biomass-derived small platform molecules, and in particular the
implementation of a deoxydehydration (DODH) reaction of glycerol towards
allyl alcohol under continuous-flow conditions. The combination of a
unique reactive dynamic feed solution approach and short exposure time
to high temperature gave high yield and excellent selectivity. Other
polyols are also studied. The second part of the lecture illustrates our
effort for the continuous-flow production of glycerol carbonate using
low environmental footprint processes. | 12:30 | The Benefits of Using SpinPro for Multiphase Reactions Wouter Stam, Managing Director, Flowid Products BV
| 13:00 | Lunch and Networking in the Exhibit Hall | 14:00 | Reactors and Reactions for Multiphase Continuous Flow Chemistry John Blacker, Professor, Leeds University, United Kingdom
In order to usefully exploit continuous flow processes within the
manufacture of Pharma, Fine and Agro Chemicals, it is necessary to be
able to handle mixtures of solids, liquids and gases as these are
commonly encountered in intense and productive processes. Most flow
methodology reported to date deals with mono-phasic liquids for which
tubular reactors are often used with poor mixing characteristics. On the
other hand continuous stirred tank reactors (CSTRs) can handle
multi-phasic systems, due to good mixing, and are well known in industry
for large-scale reactions. However, to date there are few small-scale
laboratory reactors that enable the testing and development of these
types of reactions. This presentation will discuss recent developments
in lab-scale cascade CSTRs and give a number of examples of multiphase
continuous flow reactions.
| 14:25 | Engineering Multiphasic Reactors for Catalytic Reactions Klaus Hellgardt, Professor, Imperial College London, United Kingdom
| 14:50 | Coffee, Tea and Networking in the Exhibit Hall | 15:15 | Continuous-flow Photochemistry - Photochemistry 2.0? Clemens Horn, Research Scientist, Corning SAS, France
The power of continuous-flow photochemistry is demonstrated with
chemical reactions using a multi wavelength reactor and online Bench top
NMR. | 15:40 | Tunable Asymmetric Photochemical Induction in Flow Amanda Evans, Assistant Professor, California State University Fullerton, United States of America
This talk will focus on the use of circularly polarized (cp), or
“chiral”, light as a supramolecular enantioinductive field for the
generation of asymmetric building blocks as a continuous photochemical
process. | 16:05 | Close of Day 2 of the Conference. |
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