| Fluorination of an alumina surface: modeling aluminum–fluorine reaction mechanisms R Padhye, AJA Aquino, D Tunega, ML Pantoya ACS applied materials & interfaces 9 (28), 24290-24297, 2017 | 58 | 2017 |
| Examining Hydroxyl-Alumina Bonding Toward Al Nanoparticle Reactivity R Padhye, MC Jena, CL Korzeniewski, ML Pantoya | 41* | 2015 |
| Effect of polar environments on the aluminum oxide shell surrounding aluminum particles: Simulations of surface hydroxyl bonding and charge R Padhye, AJA Aquino, D Tunega, ML Pantoya ACS Applied Materials & Interfaces 8 (22), 13926-13933, 2016 | 22 | 2016 |
| Tailoring surface conditions for enhanced reactivity of aluminum powders with solid oxidizing agents R Padhye, DK Smith, C Korzeniewski, ML Pantoya Applied Surface Science 402, 225-231, 2017 | 11 | 2017 |
| Performance evaluation of deep learning algorithms for heat loss damage classification in buildings from UAV-borne infrared images S Dabetwar, R Padhye, NN Kulkarni, C Niezrecki, A Sabato Journal of Building Engineering 75, 106948, 2023 | 4 | 2023 |
| Engineering Surface Properties of Reactive Materials R Padhye APS March Meeting Abstracts 2017, V25. 011, 2017 | | 2017 |
| Altering surface properties toward enhanced reactivity R Padhye | | 2017 |
| Identifying Reactive Sites on the Aluminum Oxide Shell Surrounding Aluminum Particles: Simulations of Surface Hydroxyl Bonding and Charge R Padhye, A Aquino, D Tunega, M Pantoya ACS Applied Materials & Interfaces, 2016 | | 2016 |
| Effect of Polar Environments on the Aluminum Oxide Shell Surrounding Aluminum Particles: Simulations of Surface Hydroxyl Bonding and Charge P Richa, AA JA, T Daniel | | 2016 |
| Examining Hydroxyl–Alumina Bonding toward Aluminum Nanoparticle Reactivity P Richa, MC Jena, K Carol | | 2015 |
| Examining hydroxyl-alumina bonding toward aluminum reactivity M Pantoya, R Padhye, C Korzeniewski, J McCollum Journal of Physical Chemistry C, 26547-26533, 2015 | | 2015 |
Michelle L PantoyaTexas Tech UniversityVerified email at ttu.edu
