| Organic synthesis: march of the machines SV Ley, DE Fitzpatrick, RJ Ingham, RM Myers Angewandte Chemie International Edition 54 (11), 3449-3464, 2015 | 519 | 2015 |
| Machine‐assisted organic synthesis SV Ley, DE Fitzpatrick, RM Myers, C Battilocchio, RJ Ingham Angewandte Chemie International Edition 54 (35), 10122-10136, 2015 | 239 | 2015 |
| A novel internet-based reaction monitoring, control and autonomous self-optimization platform for chemical synthesis DE Fitzpatrick, C Battilocchio, SV Ley Organic Process Research & Development 20 (2), 386-394, 2016 | 230 | 2016 |
| A systems approach towards an intelligent and self‐controlling platform for integrated continuous reaction sequences RJ Ingham, C Battilocchio, DE Fitzpatrick, E Sliwinski, JM Hawkins, ... Angewandte Chemie 127 (1), 146-150, 2015 | 186 | 2015 |
| Enabling technologies for the future of chemical synthesis DE Fitzpatrick, C Battilocchio, SV Ley ACS central science 2 (3), 131-138, 2016 | 179 | 2016 |
| Flow chemistry meets advanced functional materials RM Myers, DE Fitzpatrick, RM Turner, SV Ley Chemistry–A European Journal 20 (39), 12348-12366, 2014 | 135 | 2014 |
| Across‐the‐world automated optimization and continuous‐flow synthesis of pharmaceutical agents operating through a cloud‐based server DE Fitzpatrick, T Maujean, AC Evans, SV Ley Angewandte Chemie International Edition 57 (46), 15128-15132, 2018 | 102 | 2018 |
| Engineering chemistry for the future of chemical synthesis DE Fitzpatrick, SV Ley Tetrahedron 74 (25), 3087-3100, 2018 | 84 | 2018 |
| Engineering chemistry: integrating batch and flow reactions on a single, automated reactor platform DE Fitzpatrick, SV Ley Reaction Chemistry & Engineering 1 (6), 629-635, 2016 | 64 | 2016 |
| Automated electrochemical selenenylations N Amri, T Wirth Synthesis 52 (12), 1751-1761, 2020 | 25 | 2020 |
| Solvent-free continuous operations using small footprint reactors: a key approach for process intensification T Ouchi, RJ Mutton, V Rojas, DE Fitzpatrick, DG Cork, C Battilocchio, ... ACS Sustainable Chemistry & Engineering 4 (4), 1912-1916, 2016 | 23 | 2016 |
| A tutored discourse on microcontrollers, single board computers and their applications to monitor and control chemical reactions DE Fitzpatrick, M O'Brien, SV Ley Reaction Chemistry & Engineering 5 (2), 201-220, 2020 | 22 | 2020 |
| Approaches for performing reductions under continuous-flow conditions DL Riley, NC Neyt Synthesis 50 (14), 2707-2720, 2018 | 20 | 2018 |
| The Internet of Chemical Things SV Ley, DE Fitzpatrick, RJ Ingham, N Nikbin Beilstein Mag 1 (2), 2015 | 17 | 2015 |
| In-line separation of multicomponent reaction mixtures using a new semi-continuous supercritical fluid chromatography system DE Fitzpatrick, RJ Mutton, SV Ley Reaction Chemistry & Engineering 3 (5), 799-806, 2018 | 14 | 2018 |
| Continuous-flow synthesis of tramadol from cyclohexanone TM Monos, JN Jaworski, JC Stephens, TF Jamison Synlett 31 (19), 1888-1893, 2020 | 13 | 2020 |
| Rapid continuous ruthenium-catalysed transfer hydrogenation of aromatic nitriles to primary amines R Labes, D Gonzalez-Calderon, C Battilocchio, C Mateos, GR Cumming, ... Synlett 28 (20), 2855-2858, 2017 | 13 | 2017 |
| A new world for chemical synthesis? SV Ley, Y Chen, DE Fitzpatrick, O May Chimia 73 (10), 792-792, 2019 | 12 | 2019 |
| Living with our machines: Towards a more sustainable future SV Ley, Y Chen, DE Fitzpatrick, OS May Current Opinion in Green and Sustainable Chemistry 25, 100353, 2020 | 10 | 2020 |
| Development of a web-based platform for studying lithiation reactions in silico MA Kabeshov, É Śliwiński, DE Fitzpatrick, B Musio, JA Newby, ... Chemical Communications 51 (33), 7172-7175, 2015 | 7 | 2015 |
