Remote magnetic orientation of 3D collagen hydrogels for directed neuronal regeneration M Antman-Passig, O Shefi Nano letters 16 (4), 2567-2573, 2016 | 263 | 2016 |
Gold nanoparticle-decorated scaffolds promote neuronal differentiation and maturation K Baranes, M Shevach, O Shefi, T Dvir Nano letters 16 (5), 2916-2920, 2016 | 198 | 2016 |
3D printing for polymer/particle-based processing: A review W Xu, S Jambhulkar, Y Zhu, D Ravichandran, M Kakarla, B Vernon, ... Composites Part B: Engineering 223, 109102, 2021 | 192 | 2021 |
Morphological characterization of in vitro neuronal networks O Shefi, I Golding, R Segev, E Ben-Jacob, A Ayali Physical Review E 66 (2), 021905, 2002 | 189 | 2002 |
Thermal degradation of DNA M Karni, D Zidon, P Polak, Z Zalevsky, O Shefi DNA and CELL biology 32 (6), 298-301, 2013 | 182 | 2013 |
Iron oxide nanoparticles for neuronal cell applications: uptake study and magnetic manipulations M Marcus, M Karni, K Baranes, I Levy, N Alon, S Margel, O Shefi Journal of nanobiotechnology 14, 1-12, 2016 | 142 | 2016 |
Interactions of neurons with physical environments M Marcus, K Baranes, M Park, IS Choi, K Kang, O Shefi Advanced healthcare materials 6 (15), 1700267, 2017 | 108 | 2017 |
Mechanically oriented 3D collagen hydrogel for directing neurite growth M Antman-Passig, S Levy, C Gartenberg, H Schori, O Shefi Tissue Engineering Part A 23 (9-10), 403-414, 2017 | 102 | 2017 |
Topographic cues of nano‐scale height direct neuronal growth pattern K Baranes, N Chejanovsky, N Alon, A Sharoni, O Shefi Biotechnology and bioengineering 109 (7), 1791-1797, 2012 | 95 | 2012 |
3D printing‐enabled nanoparticle alignment: a review of mechanisms and applications W Xu, S Jambhulkar, D Ravichandran, Y Zhu, M Kakarla, Q Nian, ... Small 17 (45), 2100817, 2021 | 89 | 2021 |
Fluorescent metal-doped carbon dots for neuronal manipulations VB Kumar, R Kumar, A Gedanken, O Shefi Ultrasonics sonochemistry 52, 205-213, 2019 | 88 | 2019 |
Nanometric agents in the service of neuroscience: manipulation of neuronal growth and activity using nanoparticles P Polak, O Shefi Nanomedicine: Nanotechnology, Biology and Medicine 11 (6), 1467-1479, 2015 | 87 | 2015 |
NGF-conjugated iron oxide nanoparticles promote differentiation and outgrowth of PC12 cells M Marcus, H Skaat, N Alon, S Margel, O Shefi Nanoscale 7 (3), 1058-1066, 2015 | 78 | 2015 |
meso-Tetrahydroxyphenylchlorin-Conjugated Gold Nanoparticles as a Tool To Improve Photodynamic Therapy E Haimov, H Weitman, S Polani, H Schori, D Zitoun, O Shefi ACS applied materials & interfaces 10 (3), 2319-2327, 2018 | 55 | 2018 |
Magnetic micro-device for manipulating PC12 cell migration and organization N Alon, T Havdala, H Skaat, K Baranes, M Marcus, I Levy, S Margel, ... Lab on a Chip 15 (9), 2030-2036, 2015 | 53 | 2015 |
Magnetic targeting of growth factors using iron oxide nanoparticles M Marcus, A Smith, A Maswadeh, Z Shemesh, I Zak, M Motiei, H Schori, ... Nanomaterials 8 (9), 707, 2018 | 51 | 2018 |
Prolonged controlled delivery of nerve growth factor using porous silicon nanostructures N Zilony, M Rosenberg, L Holtzman, H Schori, O Shefi, E Segal Journal of Controlled Release 257, 51-59, 2017 | 51 | 2017 |
Interactions of neurons with topographic nano cues affect branching morphology mimicking neuron–neuron interactions K Baranes, D Kollmar, N Chejanovsky, A Sharoni, O Shefi Journal of molecular histology 43, 437-447, 2012 | 51 | 2012 |
Substrates coated with silver nanoparticles as a neuronal regenerative material N Alon, Y Miroshnikov, N Perkas, I Nissan, A Gedanken, O Shefi International journal of nanomedicine 9 (sup1), 23-31, 2014 | 50 | 2014 |
Neuronal Growth on l- and d-Cysteine Self-Assembled Monolayers Reveals Neuronal Chiral Sensitivity K Baranes, H Moshe, N Alon, S Schwartz, O Shefi ACS chemical neuroscience 5 (5), 370-376, 2014 | 46 | 2014 |