| Characteristics of a Miniature Compartment-less Glucose−O2 Biofuel Cell and Its Operation in a Living Plant N Mano, F Mao, A Heller Journal of the American Chemical Society 125 (21), 6588-6594, 2003 | 728 | 2003 |
| Long tethers binding redox centers to polymer backbones enhance electron transport in enzyme “wiring” hydrogels F Mao, N Mano, A Heller Journal of the American Chemical Society 125 (16), 4951-4957, 2003 | 503 | 2003 |
| A miniature biofuel cell operating in a physiological buffer N Mano, F Mao, A Heller Journal of the American Chemical Society 124 (44), 12962-12963, 2002 | 419 | 2002 |
| A Four-Electron O2-Electroreduction Biocatalyst Superior to Platinum and a Biofuel Cell Operating at 0.88 V V Soukharev, N Mano, A Heller Journal of the American Chemical Society 126 (27), 8368-8369, 2004 | 387 | 2004 |
| Bioelectrochemical propulsion N Mano, A Heller Journal of the American Chemical Society 127 (33), 11574-11575, 2005 | 332 | 2005 |
| O2 Reduction in Enzymatic Biofuel Cells N Mano, A de Poulpiquet Chemical reviews 118 (5), 2392-2468, 2017 | 316 | 2017 |
| Engineering hybrid nanotube wires for high-power biofuel cells F Gao, L Viry, M Maugey, P Poulin, N Mano Nature communications 1 (1), 2, 2010 | 299 | 2010 |
| An oxygen cathode operating in a physiological solution N Mano, HH Kim, Y Zhang, A Heller Journal of the American Chemical Society 124 (22), 6480-6486, 2002 | 275 | 2002 |
| A miniature membrane-less biofuel cell operating under physiological conditions at 0.5 V HH Kim, N Mano, Y Zhang, A Heller Journal of The Electrochemical Society 150 (2), A209, 2003 | 245 | 2003 |
| Oxygen is electroreduced to water on a “wired” enzyme electrode at a lesser overpotential than on platinum N Mano, JL Fernandez, Y Kim, W Shin, AJ Bard, A Heller Journal of the American Chemical Society 125 (50), 15290-15291, 2003 | 242 | 2003 |
| A Laccase-Wiring Redox Hydrogel for Efficient Catalysis of O2 Electroreduction N Mano, V Soukharev, A Heller The Journal of Physical Chemistry B 110 (23), 11180-11187, 2006 | 238 | 2006 |
| Bilirubin oxidases in bioelectrochemistry: Features and recent findings N Mano, L Edembe Biosensors and Bioelectronics 50, 478-485, 2013 | 195 | 2013 |
| Direct electron transfer from graphite and functionalized gold electrodes to T1 and T2/T3 copper centers of bilirubin oxidase P Ramírez, N Mano, R Andreu, T Ruzgas, A Heller, L Gorton, S Shleev Biochimica et Biophysica Acta (BBA)-Bioenergetics 1777 (10), 1364-1369, 2008 | 181 | 2008 |
| Redox potentials of the blue copper sites of bilirubin oxidases A Christenson, S Shleev, N Mano, A Heller, L Gorton Biochimica et Biophysica Acta (BBA)-Bioenergetics 1757 (12), 1634-1641, 2006 | 169 | 2006 |
| On the Relationship between the Characteristics of Bilirubin Oxidases and O2 Cathodes Based on Their “Wiring” N Mano, HH Kim, A Heller The Journal of Physical Chemistry B 106 (34), 8842-8848, 2002 | 165 | 2002 |
| A miniature membrane‐less biofuel cell operating at+ 0.60 V under physiological conditions N Mano, F Mao, A Heller ChemBioChem 5 (12), 1703-1705, 2004 | 164 | 2004 |
| Deglycosylation of glucose oxidase for direct and efficient glucose electrooxidation on a glassy carbon electrode O Courjean, F Gao, N Mano Angewandte Chemie International Edition 48 (32), 5897-5899, 2009 | 161 | 2009 |
| A miniature biofuel cell operating at 0.78 V N Mano, F Mao, W Shin, T Chen, A Heller Chemical Communications, 518-519, 2003 | 150 | 2003 |
| On the parameters affecting the characteristics of the “wired” glucose oxidase anode N Mano, F Mao, A Heller Journal of Electroanalytical Chemistry 574 (2), 347-357, 2005 | 146 | 2005 |
| A miniature membraneless biofuel cell operating at 0.36 V under physiological conditions N Mano, A Heller Journal of the Electrochemical Society 150 (8), A1136, 2003 | 140 | 2003 |
