| Nanotechnological strategies for engineering complex tissues T Dvir, BP Timko, DS Kohane, R Langer Nature nanotechnology 6 (1), 13, 2011 | 1175 | 2011 |
| Remotely triggerable drug delivery systems BP Timko, T Dvir, DS Kohane Advanced materials 22 (44), 4925-4943, 2010 | 502 | 2010 |
| Macroporous nanowire nanoelectronic scaffolds for synthetic tissues B Tian*, J Liu*, T Dvir*, L Jin, JH Tsui, Q Qing, Z Suo, R Langer, ... Nature materials 11 (11), 986, 2012 | 474 | 2012 |
| Nanowired three-dimensional cardiac patches T Dvir, BP Timko, MD Brigham, SR Naik, SS Karajanagi, O Levy, H Jin, ... Nature nanotechnology 6 (11), 720-725, 2011 | 468 | 2011 |
| Prevascularization of cardiac patch on the omentum improves its therapeutic outcome T Dvir, A Kedem, E Ruvinov, O Levy, I Freeman, N Landa, R Holbova, ... Proceedings of the National Academy of Sciences 106 (35), 14990-14995, 2009 | 302 | 2009 |
| Engineered hybrid cardiac patches with multifunctional electronics for online monitoring and regulation of tissue function R Feiner, L Engel, S Fleischer, M Malki, I Gal, A Shapira, ... Nature materials 15 (6), 679-685, 2016 | 180 | 2016 |
| The effect of immobilized RGD peptide in alginate scaffolds on cardiac tissue engineering M Shachar, O Tsur-Gang, T Dvir, J Leor, S Cohen Acta biomaterialia 7 (1), 152-162, 2011 | 169 | 2011 |
| Nanoparticles targeting the infarcted heart T Dvir, M Bauer, A Schroeder, JH Tsui, DG Anderson, R Langer, R Liao, ... Nano letters 11 (10), 4411-4414, 2011 | 158 | 2011 |
| A novel perfusion bioreactor providing a homogenous milieu for tissue regeneration T Dvir, N Benishti, M Shachar, S Cohen Tissue engineering 12 (10), 2843-2852, 2006 | 132 | 2006 |
| Gold nanoparticle-decellularized matrix hybrids for cardiac tissue engineering M Shevach, S Fleischer, A Shapira, T Dvir Nano letters 14 (10), 5792-5796, 2014 | 131 | 2014 |
| Photo-targeted nanoparticles T Dvir, MR Banghart, BP Timko, R Langer, DS Kohane Nano letters 10 (1), 250-254, 2010 | 113 | 2010 |
| Tissue–electronics interfaces: from implantable devices to engineered tissues R Feiner, T Dvir Nature Reviews Materials 3 (1), 1-16, 2017 | 97 | 2017 |
| Activation of the ERK1/2 cascade via pulsatile interstitial fluid flow promotes cardiac tissue assembly T Dvir, O Levy, M Shachar, Y Granot, S Cohen Tissue engineering 13 (9), 2185-2193, 2007 | 96 | 2007 |
| Gold nanoparticle-decorated scaffolds promote neuronal differentiation and maturation K Baranes, M Shevach, O Shefi, T Dvir Nano letters 16 (5), 2916-2920, 2016 | 95 | 2016 |
| Electric field stimulation integrated into perfusion bioreactor for cardiac tissue engineering Y Barash, T Dvir, P Tandeitnik, E Ruvinov, H Guterman, S Cohen Tissue Engineering Part C: Methods 16 (6), 1417-1426, 2010 | 92 | 2010 |
| 3D printing of personalized thick and perfusable cardiac patches and hearts N Noor, A Shapira, R Edri, I Gal, L Wertheim, T Dvir Advanced Science 6 (11), 1900344, 2019 | 90 | 2019 |
| Nanoengineering gold particle composite fibers for cardiac tissue engineering M Shevach, BM Maoz, R Feiner, A Shapira, T Dvir Journal of Materials Chemistry B 1 (39), 5210-5217, 2013 | 86 | 2013 |
| Coiled fiber scaffolds embedded with gold nanoparticles improve the performance of engineered cardiac tissues S Fleischer, M Shevach, R Feiner, T Dvir Nanoscale 6 (16), 9410-9414, 2014 | 81 | 2014 |
| Spring-like fibers for cardiac tissue engineering S Fleischer, R Feiner, A Shapira, J Ji, X Sui, HD Wagner, T Dvir Biomaterials 34 (34), 8599-8606, 2013 | 73 | 2013 |
| Tissue engineering on the nanoscale: lessons from the heart S Fleischer, T Dvir Current opinion in biotechnology 24 (4), 664-671, 2013 | 70 | 2013 |
