A non-volatile organic electrochemical device as a low-voltage artificial synapse for neuromorphic computing Y Van De Burgt, E Lubberman, EJ Fuller, ST Keene, GC Faria, S Agarwal, ... Nature materials 16 (4), 414-418, 2017 | 1583 | 2017 |
MOF-based electronic and opto-electronic devices V Stavila, AA Talin, MD Allendorf Chemical Society Reviews 43 (16), 5994-6010, 2014 | 1368 | 2014 |
Tunable Electrical Conductivity in Metal-Organic Framework Thin Film Devices AA Talin, A Centrone, AC Ford, ME Foster, V Stavila, P Haney, RA Kinney, ... Science 343, 66, 2014 | 1272* | 2014 |
An updated roadmap for the integration of metal–organic frameworks with electronic devices and chemical sensors I Stassen, N Burtch, A Talin, P Falcaro, M Allendorf, R Ameloot Chemical Society Reviews 46 (11), 3185-3241, 2017 | 1191 | 2017 |
Parallel programming of an ionic floating-gate memory array for scalable neuromorphic computing EJ Fuller, ST Keene, A Melianas, Z Wang, S Agarwal, Y Li, Y Tuchman, ... Science 364 (6440), 570-574, 2019 | 645 | 2019 |
Stress-induced chemical detection using flexible metal− organic frameworks MD Allendorf, RJT Houk, L Andruszkiewicz, AA Talin, J Pikarsky, ... Journal of the American Chemical Society 130 (44), 14404-14405, 2008 | 576 | 2008 |
Li-ion synaptic transistor for low power analog computing EJ Fuller, FE Gabaly, F Léonard, S Agarwal, SJ Plimpton, ... Advanced Materials 29 (SAND-2017-0895J), 2016 | 549 | 2016 |
Electrical contacts to one-and two-dimensional nanomaterials F Léonard, AA Talin Nature nanotechnology 6 (12), 773-783, 2011 | 537 | 2011 |
A roadmap to implementing metal–organic frameworks in electronic devices: challenges and critical directions MD Allendorf, A Schwartzberg, V Stavila, AA Talin Chemistry–A European Journal 17 (41), 11372-11388, 2011 | 480 | 2011 |
All‐solid‐state synaptic transistor with ultralow conductance for neuromorphic computing CS Yang, DS Shang, N Liu, EJ Fuller, S Agrawal, AA Talin, YQ Li, ... Advanced Functional Materials 28 (42), 1804170, 2018 | 407 | 2018 |
Field emission displays: a critical review AA Talin, KA Dean, JE Jaskie Solid-state electronics 45 (6), 963-976, 2001 | 397 | 2001 |
H2 evolution at Si-based metal–insulator–semiconductor photoelectrodes enhanced by inversion channel charge collection and H spillover DV Esposito, I Levin, TP Moffat, AA Talin Nature materials 12 (6), 562-568, 2013 | 346 | 2013 |
Carbon nanotube terahertz detector X He, N Fujimura, JM Lloyd, KJ Erickson, AA Talin, Q Zhang, W Gao, ... Nano letters 14 (7), 3953-3958, 2014 | 294 | 2014 |
High-contrast and fast electrochromic switching enabled by plasmonics T Xu, EC Walter, A Agrawal, C Bohn, J Velmurugan, W Zhu, HJ Lezec, ... Nature Communications 7 (1), 10479, 2016 | 291 | 2016 |
Thin film thermoelectric metal–organic framework with high Seebeck coefficient and low thermal conductivity KJ Erickson, F Léonard, V Stavila, ME Foster, CD Spataru, RE Jones, ... Advanced Materials 27 (22), 3453-3459, 2015 | 282 | 2015 |
Experimental Evidence for -Wave Pairing Symmetry in Superconducting <?format ?>Single Crystals Using a Scanning Tunneling Microscope N Levy, T Zhang, J Ha, F Sharifi, AA Talin, Y Kuk, JA Stroscio Physical review letters 110 (11), 117001, 2013 | 270 | 2013 |
Silver cluster formation, dynamics, and chemistry in metal− organic frameworks RJT Houk, BW Jacobs, FE Gabaly, NN Chang, AA Talin, DD Graham, ... Nano letters 9 (10), 3413-3418, 2009 | 267 | 2009 |
Liquid-like ionic conduction in solid lithium and sodium monocarba-closo-decaborates near or at room temperature WS Tang, M Matsuo, H Wu, V Stavila, W Zhou, AA Talin, AV Soloninin, ... Advanced Energy Materials 6 (SAND-2016-10125J), 2016 | 235 | 2016 |
Size-dependent effects on electrical contacts to nanotubes and nanowires F Léonard, AA Talin Physical Review Letters 97 (2), 026804, 2006 | 204 | 2006 |
A microporous and naturally nanostructured thermoelectric metal-organic framework with ultralow thermal conductivity L Sun, B Liao, D Sheberla, D Kraemer, J Zhou, EA Stach, D Zakharov, ... Joule 1 (1), 168-177, 2017 | 199 | 2017 |