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.

University of Glasgow and Chemify Announce Prosperity Partnership to Transform Molecular Discovery

The University of Glasgow’s Digital Chemistry group, led by Professor Lee Cronin, has announced a new Prosperity Partnership with Chemify, supported by UKRI. The collaboration will focus on transforming how molecules are designed, discovered and manufactured. By advancing the field of chemputation, where chemical processes are digitised and controlled through computation and robotics, the project will explore new approaches to programmable molecular synthesis and support the development of a next-generation molecular design ecosystem.

The partnership is expected to begin later this year and is part of UKRI’s latest round of Prosperity Partnerships, which bring together academic excellence and industrial innovation to tackle major research challenges.

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

516. Universal peptide synthesis via solid-phase methods fused with chemputation

515. Regulating the Assembly of γ-Cyclodextrin Host and Polyoxometalate-Based Guests toward Light-Responsive Hybrid Rotaxanes

514. Natural-Language-Interfaced Robotic Synthesis for AI-Copilot-Assisted Exploration of Inorganic Materials

513. Robotic exploration of amino-acid functionalised molybdenum blue polyoxometalate nanoclusters

512. A programmable modular robot for the synthesis of molecular machines

511. Compression of Molybdenum Blue Polyoxometalate Cluster Rings

510. High-Nuclearity Polyoxometalate-Based Metal–Organic Frameworks for Photocatalytic Oxidative Cleavage of C−C Bond

509. Breaking the Boundary of Gigantic Molybdenum Blue Clusters: From Half-Closed {Mo₈₅} to {Mo₁₇₂} Dimer

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

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

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The Cronin Group

University of Glasgow and Chemify Announce Prosperity Partnership to Transform Molecular Discovery

Prof. Leroy (Lee) Cronin

Latest Publications

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