Tony Kenyon
Tony Kenyon
Professor of Nanoelectronic & Nanophotonic Materials, UCL
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Recent developments in rare-earth doped materials for optoelectronics
AJ Kenyon
Progress in Quantum Electronics 26 (4-5), 225-284, 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
Erbium in silicon
AJ Kenyon
Semiconductor Science and Technology 20 (12), R65, 2005
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
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
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
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
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
Brain-inspired computing needs a master plan
A Mehonic, AJ Kenyon
Nature 604 (7905), 255-260, 2022
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
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
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
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
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
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
Emulating the electrical activity of the neuron using a silicon oxide RRAM cell
A Mehonic, AJ Kenyon
Frontiers in neuroscience 10, 57, 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
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
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
Losses in luminescent solar concentrators unveiled
C Tummeltshammer, A Taylor, AJ Kenyon, I Papakonstantinou
Solar Energy Materials and Solar Cells 144, 40-47, 2016
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