Recent developments in rare-earth doped materials for optoelectronics AJ Kenyon Progress in Quantum electronics 26 (4-5), 225-284, 2002 | 1084 | 2002 |
Recommended methods to study resistive switching devices M Lanza, HSP Wong, E Pop, D Ielmini, D Strukov, BC Regan, L Larcher, ... Advanced Electronic Materials 5 (1), 1800143, 2019 | 582 | 2019 |
Erbium in silicon AJ Kenyon Semiconductor Science and Technology 20 (12), R65, 2005 | 380 | 2005 |
Brain-inspired computing needs a master plan A Mehonic, AJ Kenyon Nature 604 (7905), 255-260, 2022 | 300 | 2022 |
Resistive switching in silicon suboxide films A Mehonic, S Cueff, M Wojdak, S Hudziak, O Jambois, C Labbé, ... Journal of Applied Physics 111 (7), 2012 | 299 | 2012 |
Optical properties of PECVD erbium-doped silicon-rich silica: evidence for energy transfer between silicon microclusters and erbium ions AJ Kenyon, PF Trwoga, M Federighi, CW Pitt Journal of Physics: Condensed Matter 6 (21), L319, 1994 | 297 | 1994 |
Modeling the contribution of quantum confinement to luminescence from silicon nanoclusters PF Trwoga, AJ Kenyon, CW Pitt Journal of applied physics 83 (7), 3789-3794, 1998 | 264 | 1998 |
Luminescence from erbium-doped silicon nanocrystals in silica: Excitation mechanisms AJ Kenyon, CE Chryssou, CW Pitt, T Shimizu-Iwayama, DE Hole, ... Journal of Applied Physics 91 (1), 367-374, 2002 | 253 | 2002 |
The origin of photoluminescence from thin films of silicon‐rich silica AJ Kenyon, PF Trwoga, CW Pitt, G Rehm Journal of Applied Physics 79 (12), 9291-9300, 1996 | 252 | 1996 |
Memristors--from In-memory computing, Deep Learning Acceleration, Spiking Neural Networks, to the Future of Neuromorphic and Bio-inspired Computing A Mehonic, A Sebastian, B Rajendran, O Simeone, E Vasilaki, AJ Kenyon Advanced Intelligent Systems 2 (11), 2000085, 2020 | 201 | 2020 |
Quantum conductance in silicon oxide resistive memory devices A Mehonic, A Vrajitoarea, S Cueff, S Hudziak, H Howe, C Labbe, R Rizk, ... Scientific reports 3 (1), 2708, 2013 | 198 | 2013 |
Silicon Oxide (SiOx): A Promising Material for Resistance Switching? A Mehonic, AL Shluger, D Gao, I Valov, E Miranda, D Ielmini, A Bricalli, ... Advanced materials 30 (43), 1801187, 2018 | 195 | 2018 |
Evidence of energy coupling between Si nanocrystals and in ion-implanted silica thin films CE Chryssou, AJ Kenyon, TS Iwayama, CW Pitt, DE Hole Applied Physics Letters 75 (14), 2011-2013, 1999 | 179 | 1999 |
Standards for the characterization of endurance in resistive switching devices M Lanza, R Waser, D Ielmini, JJ Yang, L Goux, J Suñe, AJ Kenyon, ... ACS nano 15 (11), 17214-17231, 2021 | 155 | 2021 |
Electrically tailored resistance switching in silicon oxide A Mehonic, S Cueff, M Wojdak, S Hudziak, C Labbé, R Rizk, AJ Kenyon Nanotechnology 23 (45), 455201, 2012 | 139 | 2012 |
Emulating the electrical activity of the neuron using a silicon oxide RRAM cell A Mehonic, AJ Kenyon Frontiers in neuroscience 10, 174123, 2016 | 133 | 2016 |
Structural changes and conductance thresholds in metal-free intrinsic SiOx resistive random access memory A Mehonic, M Buckwell, L Montesi, L Garnett, S Hudziak, S Fearn, ... Journal of Applied Physics 117 (12), 2015 | 129 | 2015 |
Complementary metal‐oxide semiconductor and memristive hardware for neuromorphic computing M Rahimi Azghadi, YC Chen, JK Eshraghian, J Chen, CY Lin, ... Advanced Intelligent Systems 2 (5), 1900189, 2020 | 121 | 2020 |
Towards population inversion of electrically pumped Er ions sensitized by Si nanoclusters O Jambois, F Gourbilleau, AJ Kenyon, J Montserrat, R Rizk, B Garrido Optics express 18 (3), 2230-2235, 2010 | 109 | 2010 |
Losses in luminescent solar concentrators unveiled C Tummeltshammer, A Taylor, AJ Kenyon, I Papakonstantinou Solar Energy Materials and Solar Cells 144, 40-47, 2016 | 108 | 2016 |