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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Autonomous chemical synthesis seen as a game-changing technology for food production

Cronin Group technology being developed towards the digitization of chemical space has been highlighted as a potential game-changer for global food production. The ability for farmers to produce essential chemicals such as pesticides and veterinary medicines on demand has the potential to revolutionise agriculture, according to a report published by Global Food Security (GFS). The report highlights a number of ways that cutting-edge technology could be used to meet increasing demands on global food supplies.

Read the full article on the GFS 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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509. High-Nuclearity Polyoxometalate-Based Metal–Organic Frameworks for Photocatalytic Oxidative Cleavage of C−C Bond

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508. Operational considerations for approximating molecular assembly by Fourier transform mass spectrometry

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507. Reaction blueprints and logical control flow for parallelized chiral synthesis in the Chemputer

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506. Experimentally measured assemblyindices are required to determine the threshold for life

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505. Algorithm-driven robotic discovery of polyoxometalate-scaffolding metal–organic frameworks

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504. Reaction: Programmable chemputable click chemistry

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503. Rethinking pharma and biotech outsourcing: A call for data security and supply chain resilience

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502. Delocalized, asynchronous, closed-loop discovery of organic laser emitters

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501. Investigating and Quantifying Molecular Complexity Using Assembly Theory and Spectroscopy

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500. Electron density-based GPT for optimization and suggestion of host–guest binders


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