| Characterization of iron dinitrosyl species formed in the reaction of nitric oxide with a biological Rieske center CE Tinberg, ZJ Tonzetich, H Wang, LH Do, Y Yoda, SP Cramer, ... Journal of the American Chemical Society 132 (51), 18168-18176, 2010 | 149 | 2010 |
| Reactions of synthetic [2Fe-2S] and [4Fe-4S] clusters with nitric oxide and nitrosothiols TC Harrop, ZJ Tonzetich, E Reisner, SJ Lippard Journal of the American Chemical Society 130 (46), 15602-15610, 2008 | 139 | 2008 |
| Highly active, stable, and selective well-defined silica supported Mo imido olefin metathesis catalysts F Blanc, J Thivolle-Cazat, JM Basset, C Copéret, AS Hock, ZJ Tonzetich, ... Journal of the American Chemical Society 129 (5), 1044-1045, 2007 | 125 | 2007 |
| Detecting and understanding the roles of nitric oxide in biology ZJ Tonzetich, LE McQuade, SJ Lippard Inorganic chemistry 49 (14), 6338-6348, 2010 | 118 | 2010 |
| Dynamics of silica-supported catalysts determined by combining solid-state NMR spectroscopy and DFT calculations F Blanc, JM Basset, C Copéret, A Sinha, ZJ Tonzetich, RR Schrock, ... Journal of the American Chemical Society 130 (18), 5886-5900, 2008 | 113 | 2008 |
| Dinitrosyl iron complexes relevant to Rieske cluster nitrosylation ZJ Tonzetich, LH Do, SJ Lippard Journal of the American Chemical Society 131 (23), 7964-7965, 2009 | 112 | 2009 |
| Catalytic C–S cross-coupling reactions employing Ni complexes of pyrrole-based pincer ligands GT Venkanna, HD Arman, ZJ Tonzetich ACS Catalysis 4 (9), 2941-2950, 2014 | 108 | 2014 |
| NHC complexes of cobalt (II) relevant to catalytic C–C coupling reactions JA Przyojski, HD Arman, ZJ Tonzetich Organometallics 32 (3), 723-732, 2013 | 89 | 2013 |
| Synthesis, characterization, and catalytic activity of nickel (II) alkyl complexes supported by pyrrole–diphosphine ligands GT Venkanna, S Tammineni, HD Arman, ZJ Tonzetich Organometallics 32 (16), 4656-4663, 2013 | 79 | 2013 |
| Identification of protein-bound dinitrosyl iron complexes by nuclear resonance vibrational spectroscopy ZJ Tonzetich, H Wang, D Mitra, CE Tinberg, LH Do, FE Jenney Jr, ... Journal of the American Chemical Society 132 (20), 6914-6916, 2010 | 79 | 2010 |
| Mechanistic studies of catalytic carbon–carbon cross-coupling by well-defined iron NHC complexes JA Przyojski, KP Veggeberg, HD Arman, ZJ Tonzetich Acs Catalysis 5 (10), 5938-5946, 2015 | 73 | 2015 |
| Complexes of iron (ii) and iron (iii) containing aryl-substituted N-heterocyclic carbene ligands JA Przyojski, HD Arman, ZJ Tonzetich Organometallics 31 (8), 3264-3271, 2012 | 73 | 2012 |
| Chemistry of nitrosyliron complexes supported by a β-diketiminate ligand ZJ Tonzetich, F Héroguel, LH Do, SJ Lippard Inorganic chemistry 50 (4), 1570-1579, 2011 | 70 | 2011 |
| A combined magnetic circular dichroism and density functional theory approach for the elucidation of electronic structure and bonding in three-and four-coordinate iron (II)–N … KL Fillman, JA Przyojski, MH Al-Afyouni, ZJ Tonzetich, ML Neidig Chemical science 6 (2), 1178-1188, 2015 | 61 | 2015 |
| Hydrosulfide complexes of the transition elements: diverse roles in bioinorganic, cluster, coordination, and organometallic chemistry MD Pluth, ZJ Tonzetich Chemical Society Reviews 49 (12), 4070-4134, 2020 | 53 | 2020 |
| Facile synthesis of a tungsten alkylidyne catalyst for alkyne metathesis ZJ Tonzetich, YC Lam, P Müller, RR Schrock Organometallics 26 (3), 475-477, 2007 | 52 | 2007 |
| Nickel (II) complexes containing a pyrrole–diphosphine pincer ligand GT Venkanna, TVM Ramos, HD Arman, ZJ Tonzetich Inorganic Chemistry 51 (23), 12789-12795, 2012 | 50 | 2012 |
| A pyrrole-based pincer ligand permits access to three oxidation states of iron in organometallic complexes CV Thompson, HD Arman, ZJ Tonzetich Organometallics 36 (9), 1795-1802, 2017 | 49 | 2017 |
| Reaction of Phosphoranes with Mo(N-2,6-i-Pr2C6H3)(CHCMe3)[OCMe(CF3)2]2: Synthesis and Reactivity of an Anionic Imido Alkylidyne Complex ZJ Tonzetich, RR Schrock, P Müller Organometallics 25 (18), 4301-4306, 2006 | 49 | 2006 |
| Synthesis of oligoenes that contain up to 15 double bonds from 1, 6-heptadiynes C Czekelius, J Hafer, ZJ Tonzetich, RR Schrock, RL Christensen, P Müller Journal of the American Chemical Society 128 (51), 16664-16675, 2006 | 39 | 2006 |
