Metal-ligand multiple bonds: the chemistry of transition metal complexes containing oxo, nitrido, imido, alkylidene, or alkylidyne ligands WA Nugent, JM Mayer (No Title), 1988 | 2203 | 1988 |
Thermochemistry of proton-coupled electron transfer reagents and its implications JJ Warren, TA Tronic, JM Mayer Chemical reviews 110 (12), 6961-7001, 2010 | 1603 | 2010 |
Proton-coupled electron transfer: a reaction chemist's view JM Mayer Annu. Rev. Phys. Chem. 55 (1), 363-390, 2004 | 905 | 2004 |
A soluble copper–bipyridine water-oxidation electrocatalyst SM Barnett, KI Goldberg, JM Mayer Nature chemistry 4 (6), 498-502, 2012 | 820 | 2012 |
Understanding hydrogen atom transfer: from bond strengths to Marcus theory JM Mayer Accounts of chemical research 44 (1), 36-46, 2011 | 806 | 2011 |
Hydrogen atom abstraction by metal− oxo complexes: Understanding the analogy with organic radical reactions JM Mayer Accounts of chemical research 31 (8), 441-450, 1998 | 611 | 1998 |
Oxygen reduction by homogeneous molecular catalysts and electrocatalysts ML Pegis, CF Wise, DJ Martin, JM Mayer Chemical Reviews 118 (5), 2340-2391, 2018 | 541 | 2018 |
Biomimetic oxidations catalyzed by transition metal complexes B Meunier, G Brudvig, JL Mclain, S Murahashi, VL Pecoraro, D Riley, ... World Scientific, 2000 | 418 | 2000 |
Proton-coupled electron transfer versus hydrogen atom transfer in benzyl/toluene, methoxyl/methanol, and phenoxyl/phenol self-exchange reactions JM Mayer, DA Hrovat, JL Thomas, WT Borden Journal of the American Chemical Society 124 (37), 11142-11147, 2002 | 399 | 2002 |
Titanium and zinc oxide nanoparticles are proton-coupled electron transfer agents JN Schrauben, R Hayoun, CN Valdez, M Braten, L Fridley, JM Mayer Science 336 (6086), 1298-1301, 2012 | 395 | 2012 |
Understanding C-H Bond Oxidations: H⋅ and H- Transfer in the Oxidation of Toluene by Permanganate KA Gardner, JM Mayer Science 269 (5232), 1849-1851, 1995 | 318 | 1995 |
Metal-oxygen multiple bond lengths: a statistical study JM Mayer Inorganic Chemistry 27 (22), 3899-3903, 1988 | 315 | 1988 |
Host-guest complexation. 8. Macrocyclic polyethers shaped by two rigid substituted dinaphthyl or ditetralyl units DJ Cram, RC Helgeson, SC Peacock, LJ Kaplan, LA Domeier, P Moreau, ... The Journal of Organic Chemistry 43 (10), 1930-1946, 1978 | 288 | 1978 |
Concerted proton− electron transfer in the oxidation of hydrogen-bonded phenols IJ Rhile, TF Markle, H Nagao, AG DiPasquale, OP Lam, MA Lockwood, ... Journal of the American Chemical Society 128 (18), 6075-6088, 2006 | 270 | 2006 |
Thermodynamics and kinetics of proton-coupled electron transfer: stepwise vs. concerted pathways JM Mayer, IJ Rhile Biochimica et Biophysica Acta (BBA)-Bioenergetics 1655, 51-58, 2004 | 256 | 2004 |
Standard Reduction Potentials for Oxygen and Carbon Dioxide Couples in Acetonitrile and N,N-Dimethylformamide ML Pegis, JAS Roberts, DJ Wasylenko, EA Mader, AM Appel, JM Mayer Inorganic chemistry 54 (24), 11883-11888, 2015 | 242 | 2015 |
Application of the Marcus cross relation to hydrogen atom transfer reactions JP Roth, JC Yoder, TJ Won, JM Mayer Science 294 (5551), 2524-2526, 2001 | 241 | 2001 |
Why are there no terminal oxo complexes of the late transition metals? Or the importance of metal–ligand Π antibonding interactions JM Mayer Comments on Inorganic Chemistry 8 (4), 125-135, 1988 | 239 | 1988 |
Electrocatalytic oxygen reduction by iron tetra-arylporphyrins bearing pendant proton relays CT Carver, BD Matson, JM Mayer Journal of the American Chemical Society 134 (12), 5444-5447, 2012 | 234 | 2012 |
A continuum of proton-coupled electron transfer reactivity JW Darcy, B Koronkiewicz, GA Parada, JM Mayer Accounts of chemical research 51 (10), 2391-2399, 2018 | 232 | 2018 |