The Cronin Group

Research in the Cronin Group is motivated by the fascination for complex chemical systems, and the desire to construct complex functional molecular architectures that are not based on biologically derived building blocks.


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Cronin Group Researchers Tackle Reproducibility and Standardisation in Collaborative Synthesis Using a Universal Programming Language

In a new publication featured in Nature Synthesis, Cronin Group researchers have unveiled a pioneering approach to collaborative synthesis projects, emphasizing the critical role of repeatability and standardization in scientific research.

In the paper, titled “Universal Chemical Programming Language for Robotic Synthesis Repeatability,” researchers showcase the advantages of the recently introduced universal programming language, χDL to encode and execute synthesis, illustrating how standardized synthesis protocols can seamlessly traverse different robotic platforms, laboratories, and even international borders by facilitating the completion of three distinct synthesis projects.

The full publication is available on the Nature Synthesis website.

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Prof. Leroy (Lee) Cronin

Prof Leroy (Lee) Cronin
Regius Chair of Chemistry
Advanced Research Centre (ARC)
Level 5, Digital Chemistry
University of Glasgow
11 Chapel Lane
Glasgow G11 6EW
Tel: +44 141 330 6650
Email: lee.cronin@glasgow.ac.uk

Latest Publications

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497. An integrated self-optimizing programmable chemical synthesis and reaction engine

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496. Autonomous execution of highly reactive chemical transformations in the Schlenkputer

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495. Universal chemical programming language for robotic synthesis repeatability

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494. Bringing digital synthesis to Mars

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493. An Autonomous Electrochemical Discovery Robot that Utilises Probabilistic Algorithms: Probing the Redox Behaviour of Inorganic Materials

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492. Reaction Kinetics using a Chemputable Framework for Data Collection and Analysis

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491. Assembly theory explains and quantifies selection and evolution

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490. Digital design and 3D printing of reactionware for on demand synthesis of high value probes

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489. Robotic Modules for the Programmable Chemputation of Molecules and Materials

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488. Science opportunities with solar sailing smallsats


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