BEGIN:VCALENDAR PRODID:-//Microsoft Corporation//Outlook 16.0 MIMEDIR//EN VERSION:2.0 METHOD:PUBLISH X-MS-OLK-FORCEINSPECTOROPEN:TRUE BEGIN:VTIMEZONE TZID:GMT Standard Time BEGIN:STANDARD DTSTART:16011028T020000 RRULE:FREQ=YEARLY;BYDAY=-1SU;BYMONTH=10 TZOFFSETFROM:+0100 TZOFFSETTO:-0000 END:STANDARD BEGIN:DAYLIGHT DTSTART:16010325T010000 RRULE:FREQ=YEARLY;BYDAY=-1SU;BYMONTH=3 TZOFFSETFROM:-0000 TZOFFSETTO:+0100 END:DAYLIGHT END:VTIMEZONE BEGIN:VEVENT CATEGORIES:Stage 5 CLASS:PUBLIC CREATED:20230502T110538Z DESCRIPTION:“Why use Flow Chemistry?” (Asynt) \nhttps://www.chemicaluke xpo.com/speakers/martyn-fordham-2/\n \nTime & Location\nWednesday: 11.00 t o 11.15\, Stage 5\n \nSpeaker\nMartyn Fordham\, Managing Director – Asyn t\n \nAbout this presentation\nScientists use flow chemistry as a powerful technique for carrying out chemical reactions in a continuous flow stream . This approach offers several advantages over traditional batch reactions \, including:\n1. Improved reaction control: In flow chemistry\, the react ants are continuously pumped through a reactor\, allowing for precise cont rol of reaction conditions such as temperature\, pressure\, and reaction t ime. This results in improved reaction selectivity and yield\, as well as reduced side reactions and waste.\n2. Scalability: Flow chemistry allows f or easy scale-up of reactions by simply adjusting the flow rate and reacto r size\, which makes it an attractive method for industrial production.\n3 . Safety: Flow chemistry can be a safer alternative to traditional batch r eactions\, as the smaller reaction volumes and precise control of reaction conditions can reduce the risk of chemical accidents.\n4. Novel reaction discovery: Flow chemistry allows for the rapid screening of a large number of reaction conditions\, which can lead to the discovery of novel reactio ns and new synthetic pathways.\n \nOverall\, flow chemistry is a valuable tool for modern synthetic chemistry and has enabled the development of new synthetic methods and processes that were previously difficult or impossi ble to achieve with traditional batch reactions.\n \n DTEND;TZID="GMT Standard Time":20230510T111500 DTSTAMP:20230502T110538Z DTSTART;TZID="GMT Standard Time":20230510T110000 LAST-MODIFIED:20230502T110538Z LOCATION:Stage 5 PRIORITY:5 SEQUENCE:0 SUMMARY;LANGUAGE=en-gb:“Why use Flow Chemistry?” (Asynt) TRANSP:OPAQUE UID:040000008200E00074C5B7101A82E00800000000E0CCBD85DF7CD901000000000000000 010000000E33F002B06C1ED489993B67D99A3783D X-ALT-DESC;FMTTYPE=text/html:\n\n\n\n \n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n \n\n\n\n\n\n\n\n\n\n

“\;Why use Flow Chemistry?”\; (Asynt)

https://www.chemicalukexpo.com/speakers/martyn -fordham-2/

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Time &\; Location

Wednesday: 11.00 to 11.15\, Stage 5

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Speaker

Martyn Fordham\, Managing Director –\; Asynt

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About this presentation

Scientists use flow chemistry as a powerful technique for carrying ou t chemical reactions in a continuous flow stream. This approach offers sev eral advantages over traditional batch reactions\, including:

1. Improved reaction control: In flow chemistry\, the reactants are continuously pumped through a reactor\, allowing for precis e control of reaction conditions such as temperature\, pressure\, and reac tion time. This results in improved reaction selectivity and yield\, as we ll as reduced side reactions and waste.

2 . Scalability: Flow chemistry allows for easy scale-up of reactions by sim ply adjusting the flow rate and reactor size\, which makes it an attractiv e method for industrial production.

3. Sa fety: Flow chemistry can be a safer alternative to traditional batch react ions\, as the smaller reaction volumes and precise control of reaction con ditions can reduce the risk of chemical accidents.

4. Novel reaction discovery: Flow chemistry allows for the rapid screening of a large number of reaction conditio ns\, which can lead to the discovery of novel reactions and new synthetic pathways.

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Overall\, flow chemistry is a valuable tool for modern synthetic chemistry and has enabled the development of new synthetic methods and pr ocesses that were previously difficult or impossible to achieve with tradi tional batch reactions.

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