Autonomous model-based experimental design for rapid reaction development

Sebastian Knoll; Clemens E. Jusner; Peter Sagmeister; Jason D. Williams; Christopher A. Hone; Martin Horn; C. Oliver Kappe

doi:10.1039/d2re00208f

Autonomous model-based experimental design for rapid reaction development

Sebastian Knoll, Clemens E. Jusner, Peter Sagmeister, Jason D. Williams, Christopher A. Hone, Martin Horn^*, C. Oliver Kappe

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Currently, the development of flow processes is seen as a resource intensive and specialized activity, when compared to batch processes. We describe an optimization workflow, based on newly-developed open-source software (Optipus). This procedure facilitates the automation of flow optimization experiments, collects and utilizes data in real time, and is able to autonomously perform real-time model fitting and evaluation. We highlight the application of the software to optimize a four-dimensional nucleophilic aromatic substitution and a six-dimensional photochemical benzylic bromination. Overall, the utilization of Optipus will enable early generation and use of predictive models for the identification of the sensitivity of product quality to critical parameter changes, significantly reducing development time and risks.

Originalsprache	englisch
Seiten (von - bis)	2375-2384
Seitenumfang	10
Fachzeitschrift	Reaction Chemistry and Engineering
Jahrgang	7
Ausgabenummer	11
DOIs	https://doi.org/10.1039/d2re00208f
Publikationsstatus	Veröffentlicht - 2 Aug. 2022

ASJC Scopus subject areas

Katalyse
Chemie (sonstige)
Chemische Verfahrenstechnik (sonstige)
Prozesschemie und -technologie
Fließ- und Transferprozesse von Flüssigkeiten

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title = "Autonomous model-based experimental design for rapid reaction development",

abstract = "Currently, the development of flow processes is seen as a resource intensive and specialized activity, when compared to batch processes. We describe an optimization workflow, based on newly-developed open-source software (Optipus). This procedure facilitates the automation of flow optimization experiments, collects and utilizes data in real time, and is able to autonomously perform real-time model fitting and evaluation. We highlight the application of the software to optimize a four-dimensional nucleophilic aromatic substitution and a six-dimensional photochemical benzylic bromination. Overall, the utilization of Optipus will enable early generation and use of predictive models for the identification of the sensitivity of product quality to critical parameter changes, significantly reducing development time and risks.",

author = "Sebastian Knoll and Jusner, {Clemens E.} and Peter Sagmeister and Williams, {Jason D.} and Hone, {Christopher A.} and Martin Horn and Kappe, {C. Oliver}",

note = "Funding Information: The authors gratefully acknowledge funding by Land Steiermark/Zukunftsfonds Steiermark (No. 9003) for acquiring the infrastructure used in this work. The Research Center Pharmaceutical Engineering (RCPE) is funded within the framework of COMET - Competence Centers for Excellent Technologies by BMK, BMDW, Land Steiermark and SFG. The COMET program is managed by the FFG. Funding Information: The authors gratefully acknowledge funding by Land Steiermark/Zukunftsfonds Steiermark (No. 9003) for acquiring the infrastructure used in this work. The Research Center Pharmaceutical Engineering (RCPE) is funded within the framework of COMET – Competence Centers for Excellent Technologies by BMK, BMDW, Land Steiermark and SFG. The COMET program is managed by the FFG. Publisher Copyright: {\textcopyright} 2022 The Royal Society of Chemistry.",

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doi = "10.1039/d2re00208f",

language = "English",

volume = "7",

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AU - Knoll, Sebastian

AU - Jusner, Clemens E.

AU - Sagmeister, Peter

AU - Williams, Jason D.

AU - Hone, Christopher A.

AU - Horn, Martin

AU - Kappe, C. Oliver

N1 - Funding Information: The authors gratefully acknowledge funding by Land Steiermark/Zukunftsfonds Steiermark (No. 9003) for acquiring the infrastructure used in this work. The Research Center Pharmaceutical Engineering (RCPE) is funded within the framework of COMET - Competence Centers for Excellent Technologies by BMK, BMDW, Land Steiermark and SFG. The COMET program is managed by the FFG. Funding Information: The authors gratefully acknowledge funding by Land Steiermark/Zukunftsfonds Steiermark (No. 9003) for acquiring the infrastructure used in this work. The Research Center Pharmaceutical Engineering (RCPE) is funded within the framework of COMET – Competence Centers for Excellent Technologies by BMK, BMDW, Land Steiermark and SFG. The COMET program is managed by the FFG. Publisher Copyright: © 2022 The Royal Society of Chemistry.

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Y1 - 2022/8/2

N2 - Currently, the development of flow processes is seen as a resource intensive and specialized activity, when compared to batch processes. We describe an optimization workflow, based on newly-developed open-source software (Optipus). This procedure facilitates the automation of flow optimization experiments, collects and utilizes data in real time, and is able to autonomously perform real-time model fitting and evaluation. We highlight the application of the software to optimize a four-dimensional nucleophilic aromatic substitution and a six-dimensional photochemical benzylic bromination. Overall, the utilization of Optipus will enable early generation and use of predictive models for the identification of the sensitivity of product quality to critical parameter changes, significantly reducing development time and risks.

AB - Currently, the development of flow processes is seen as a resource intensive and specialized activity, when compared to batch processes. We describe an optimization workflow, based on newly-developed open-source software (Optipus). This procedure facilitates the automation of flow optimization experiments, collects and utilizes data in real time, and is able to autonomously perform real-time model fitting and evaluation. We highlight the application of the software to optimize a four-dimensional nucleophilic aromatic substitution and a six-dimensional photochemical benzylic bromination. Overall, the utilization of Optipus will enable early generation and use of predictive models for the identification of the sensitivity of product quality to critical parameter changes, significantly reducing development time and risks.

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Autonomous model-based experimental design for rapid reaction development

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