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Towards dial-a-molecule by integrating continuous flow, analytics and self-optimisation.

Victor Sans1, Leroy Cronin

  • 1Department of Chemical and Environmental Engineering, University of Nottingham, NG7 2RD, UK. Victor.sanssangorrin@nottingham.ac.uk.

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|January 28, 2016
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Summary
This summary is machine-generated.

Continuous-flow platforms in synthetic chemistry integrate in-line analytics for real-time reaction monitoring. This digital synthesis approach allows for automated optimization, enabling precise control over chemical reactions and molecular outcomes.

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Area of Science:

  • Synthetic Chemistry
  • Chemical Engineering
  • Process Analytical Technology

Background:

  • Continuous-flow platforms are gaining traction in research and industry.
  • In-line analytics provide real-time data on reaction parameters.
  • Automated feedback loops enable precise control over synthesis.

Purpose of the Study:

  • To provide an overview of significant advancements in continuous-flow synthetic chemistry.
  • To highlight the benefits of integrated in-line analytics.
  • To discuss the concept of digital synthesis and automated optimization.

Main Methods:

  • Review of current literature and significant contributions in continuous-flow chemistry.
  • Discussion of integrated analytical techniques for real-time monitoring.
  • Exploration of feedback optimization strategies for reaction control.

Main Results:

  • Continuous-flow platforms offer enhanced control over reaction progress and selectivity.
  • In-line analytics provide crucial real-time data on catalytic activity and stability.
  • Digital synthesis approaches facilitate a 'dial-a-molecule' capability.

Conclusions:

  • Continuous-flow chemistry with integrated analytics represents a powerful paradigm shift.
  • Automated optimization and digital synthesis are key to future chemical manufacturing.
  • This approach enhances efficiency, control, and the ability to produce targeted molecules.