| Ionic liquid gel materials: applications in green and sustainable chemistry PC Marr, AC Marr Green Chemistry 18 (1), 105-128, 2016 | 489 | 2016 |
| Enzyme Entrapment, Biocatalyst Immobilization without Covalent Attachment AC Marr, PC Marr, HT Imam Green Chemistry, 2021 | 223 | 2021 |
| Modulation of the electronic structure and the Ni–Fe distance in heterobimetallic models for the active site in [NiFe] hydrogenase W Zhu, AC Marr, Q Wang, F Neese, DJE Spencer, AJ Blake, PA Cooke, ... Proceedings of the National Academy of Sciences 102 (51), 18280-18285, 2005 | 190 | 2005 |
| Structural mimics for the active site of [NiFe] hydrogenase AC Marr, DJE Spencer, M Schröder Coordination Chemistry Reviews 219, 1055-1074, 2001 | 169 | 2001 |
| Organometallic hydrogen transfer and dehydrogenation catalysts for the conversion of bio-renewable alcohols AC Marr Catalysis Science & Technology 2 (2), 279-287, 2012 | 92 | 2012 |
| Basic ionic liquids for catalysis: the road to greater stability P McNeice, PC Marr, AC Marr Catalysis Science & Technology 11 (3), 726-741, 2021 | 81 | 2021 |
| Combining bio-and chemo-catalysis: from enzymes to cells, from petroleum to biomass AC Marr, S Liu Trends in Biotechnology 29 (5), 199-204, 2011 | 81 | 2011 |
| Base-free dynamic kinetic resolution of secondary alcohols using “piano-stool” complexes of N-heterocyclic carbenes AC Marr, CL Pollock, GC Saunders Organometallics 26 (14), 3283-3285, 2007 | 62 | 2007 |
| Phenylphosphatrioxa-adamantanes: bulky, robust, electron-poor ligands that give very efficient rhodium (I) hydroformylation catalysts RA Baber, ML Clarke, KM Heslop, AC Marr, AG Orpen, PG Pringle, ... Dalton Transactions, 1079-1085, 2005 | 56 | 2005 |
| The synthesis and electronic structure of a novel [NiS4Fe2(CO)(6)] radical cluster: Implications for the active site of the [NiFe] hydrogenases Q Wang, JE Barclay, AJ Blake, ES Davies, DJ Evans, AC Marr, ... Chem. Eur. J 10, 3384-3396, 2004 | 55* | 2004 |
| A Recyclable acidic ionic liquid gel catalyst for dehydration: Comparison with an analogous SILP catalyst YM Wang, V Ulrich, GF Donnelly, F Lorenzini, AC Marr, PC Marr ACS Sustainable Chemistry & Engineering 3 (5), 792-796, 2015 | 54 | 2015 |
| Entrapping homogeneous catalysts by sol–gel methods: the bottom-up synthesis of catalysts that recycle and cascade AC Marr, PC Marr Dalton Transactions 40 (1), 20-26, 2011 | 49 | 2011 |
| Synthesis of Piano Stool Complexes Employing the Pentafluorophenyl-Substituted Diphosphine (C6F5)2PCH2P(C6F5)2 and the Effect of Phosphine … AC Marr, M Nieuwenhuyzen, CL Pollock, GC Saunders Organometallics 26 (10), 2659-2671, 2007 | 48 | 2007 |
| The co‐entrapment of a homogeneous catalyst and an ionic liquid by a sol–gel method: Recyclable ionogel hydrogenation catalysts SJ Craythorne, K Anderson, F Lorenzini, C McCausland, EF Smith, ... Chemistry–A European Journal 15 (29), 7094-7100, 2009 | 47 | 2009 |
| Adding value to renewables: a one pot process combining microbial cells and hydrogen transfer catalysis to utilise waste glycerol from biodiesel production S Liu, M Rebros, G Stephens, AC Marr Chemical communications, 2308-2310, 2009 | 43 | 2009 |
| Applications of ionic liquids in whole-cell and isolated enzyme biocatalysis HT Imam, V Krasňan, M Rebroš, AC Marr Molecules 26 (16), 4791, 2021 | 38 | 2021 |
| Designing materials for aqueous catalysis: ionic liquid gel and silica sphere entrapped iron-TAML catalysts for oxidative degradation of dyes P McNeice, A Reid, HT Imam, C McDonagh, JD Walby, TJ Collins, ... Environmental science & technology 54 (21), 14026-14035, 2020 | 37 | 2020 |
| Designing ionic liquids for the extraction of alcohols from fermentation broth: phosphonium alkanesulfonates, solvents for diol extraction X Liu, M Rebroš, I Dolejš, AC Marr ACS Sustainable Chemistry & Engineering 5 (9), 8260-8268, 2017 | 33 | 2017 |
| Production of 1,3-Propanediol from Pure and Crude Glycerol Using Immobilized Clostridium butyricum I Dolejš, M Líšková, V Krasňan, K Markošová, M Rosenberg, F Lorenzini, ... Catalysts 9 (4), 317, 2019 | 30 | 2019 |
| Intensified crude glycerol conversion to butanol by immobilized Clostridium pasteurianum V Krasňan, M Plž, AC Marr, K Markošová, M Rosenberg, M Rebroš Biochemical Engineering Journal 134, 114-119, 2018 | 29 | 2018 |