| Electrochemically active polymers for rechargeable batteries P Novák, K Müller, KSV Santhanam, O Haas Chemical reviews 97 (1), 207-282, 1997 | 2064 | 1997 |
| Carbon nanotube electrode for oxidation of dopamine PJ Britto, KSV Santhanam, PM Ajayan Bioelectrochemistry and Bioenergetics 41 (1), 121-125, 1996 | 1138 | 1996 |
| Improved charge transfer at carbon nanotube electrodes PJ Britto, KSV Santhanam, A Rubio, JA Alonso, PM Ajayan Advanced Materials 11 (2), 154-157, 1999 | 714 | 1999 |
| Fast electron transfer kinetics on multiwalled carbon nanotube microbundle electrodes JM Nugent, KSV Santhanam, A Rubio, PM Ajayan Nano letters 1 (2), 87-91, 2001 | 658 | 2001 |
| Chemiluminescence of Electrogenerated 9,10-Diphenylanthracene Anion Radical1 KSV Santhanam, AJ Bard Journal of the American Chemical Society 87 (1), 139-140, 1965 | 356 | 1965 |
| Efficient polymerization of aniline at carbon nanotube electrodes C Downs, J Nugent, PM Ajayan, DJ Duquette, KSV Santhanam Advanced Materials 11 (12), 1028-1031, 1999 | 237 | 1999 |
| Solution redox couples for electrochemical energy storage: I. Iron (III)‐iron (II) complexes with O‐phenanthroline and related ligands YWD Chen, KSV Santhanam, AJ Bard Journal of the Electrochemical Society 128 (7), 1460, 1981 | 205* | 1981 |
| Introduction to hydrogen technology KSV Santhanam, RJ Press, MJ Miri, AV Bailey, GA Takacs John Wiley & Sons, 2017 | 194 | 2017 |
| Nicotinamide adenine dinucleotide (NAD+) and related compounds. Electrochemical redox pattern and allied chemical behavior CO Schmakel, KSV Santhanam, PJ Elving Journal of the American Chemical Society 97 (18), 5083-5092, 1975 | 192 | 1975 |
| Development of a two-step electrodeposition process for enhancing pool boiling CM Patil, KSV Santhanam, SG Kandlikar International Journal of Heat and Mass Transfer 79, 989-1001, 2014 | 155 | 2014 |
| A chemical sensor for chloromethanes using a nanocomposite of multiwalled carbon nanotubes with poly (3-methylthiophene) KSV Santhanam, R Sangoi, L Fuller Sensors and Actuators B: Chemical 106 (2), 766-771, 2005 | 133 | 2005 |
| Electrochemical oxidation in aqueous and nonaqueous media of dihydropyridine nucleotides NMNH, NADH, and NADPH RD Braun, KSV Santhanam, PJ Elving Journal of the American Chemical Society 97 (10), 2591-2598, 1975 | 113 | 1975 |
| Nicotinamide-NAD sequence: Redox processes and related behavior: Behavior and properties of intermediate and final products PJ Elving, CO Schmakel, KSV Santhanam, P Zuman Taylor & Francis Group 6 (1), 1-67, 1976 | 110 | 1976 |
| Chemical bath deposition of cubic copper (I) selenide and its room temperature transformation to the orthorhombic phase C Lévy-Clément, M Neumann-Spallart, SK Haram, KSV Santhanam Thin Solid Films 302 (1-2), 12-16, 1997 | 106 | 1997 |
| The Electrochemical Oxidation of Aromatic Hydrocarbons in Methylene Chloride J Phelps, KSV Santhanam, AJ Bard Journal of the American Chemical Society 89 (7), 1752-1753, 1967 | 93 | 1967 |
| The electrochemical reduction of 9, 10-Diphenylanthracene KSV Santhanam, AJ Bard Journal of the American Chemical Society 88 (12), 2669-2675, 1966 | 93 | 1966 |
| Polycarbazole-based electrochemical transistor V Rani, KSV Santhanam Journal of Solid State Electrochemistry 2 (2), 99-101, 1998 | 88 | 1998 |
| Photothermal spectroscopy GH Brilmyer, A Fujishima, KSV Santhanam, AJ Bard Analytical Chemistry 49 (13), 2057-2062, 1977 | 87 | 1977 |
| Magnetic field assisted convection in an electrolyte of nonuniform magnetic susceptibility RN O'brien, KSV Santhanam Journal of applied electrochemistry 27 (5), 573-578, 1997 | 86 | 1997 |
| Electrochemistry of organophosphorus compounds. II. Electroreduction of triphenylphosphine and triphenylphosphine oxide KSV Santhanam, AJ Bard Journal of the American Chemical Society 90 (5), 1118-1122, 1968 | 77 | 1968 |
