Carbon nanotube-based nonvolatile random access memory for molecular computing T Rueckes, K Kim, E Joselevich, GY Tseng, CL Cheung, CM Lieber science 289 (5476), 94-97, 2000 | 2476 | 2000 |
Covalently functionalized nanotubes as nanometre-sized probes in chemistry and biology SS Wong, E Joselevich, AT Woolley, CL Cheung, CM Lieber Nature 394 (6688), 52-55, 1998 | 2039 | 1998 |
Vectorial growth of metallic and semiconducting single-wall carbon nanotubes E Joselevich, CM Lieber Nano Letters 2 (10), 1137-1141, 2002 | 441 | 2002 |
Nanoscopic wire-based devices and arrays CM Lieber, T Rueckes, E Joselevich, K Kim US Patent 6,781,166, 2004 | 419 | 2004 |
Covalently-functionalized single-walled carbon nanotube probe tips for chemical force microscopy SS Wong, AT Woolley, E Joselevich, CL Cheung, CM Lieber Journal of the American Chemical Society 120 (33), 8557-8558, 1998 | 361 | 1998 |
Stacking and registry effects in layered materials: the case of hexagonal boron nitride N Marom, J Bernstein, J Garel, A Tkatchenko, E Joselevich, L Kronik, ... Physical review letters 105 (4), 046801, 2010 | 359 | 2010 |
Guided growth of millimeter-long horizontal nanowires with controlled orientations D Tsivion, M Schvartzman, R Popovitz-Biro, P Von Huth, E Joselevich Science 333 (6045), 1003-1007, 2011 | 285 | 2011 |
Atomic-step-templated formation of single wall carbon nanotube patterns A Ismach, L Segev, E Wachtel, E Joselevich Angewandte Chemie International Edition 43 (45), 6140-6143, 2004 | 280 | 2004 |
Carbon nanotube synthesis and organization E Joselevich, H Dai, J Liu, K Hata, A H. Windle Carbon nanotubes: advanced topics in the synthesis, structure, properties …, 2008 | 213 | 2008 |
Nanoscale thermal imaging of dissipation in quantum systems D Halbertal, J Cuppens, MB Shalom, L Embon, N Shadmi, Y Anahory, ... Nature 539 (7629), 407-410, 2016 | 211 | 2016 |
Photosensitization of quantum-size TiO2 particles in water-in-oil microemulsions E Joselevich, I Willner The Journal of Physical Chemistry 98 (31), 7628-7635, 1994 | 210 | 1994 |
Electronic structure and chemical reactivity of carbon nanotubes: a chemist's view E Joselevich ChemPhysChem 5 (5), 619-624, 2004 | 178 | 2004 |
Carbon nanotube graphoepitaxy: Highly oriented growth by faceted nanosteps A Ismach, D Kantorovich, E Joselevich Journal of the American Chemical Society 127 (33), 11554-11555, 2005 | 174 | 2005 |
Field-Effect Transistors Based on WS2 Nanotubes with High Current-Carrying Capacity R Levi, O Bitton, G Leitus, R Tenne, E Joselevich Nano letters 13 (8), 3736-3741, 2013 | 172 | 2013 |
Torsional electromechanical quantum oscillations in carbon nanotubes T Cohen-Karni, L Segev, O Srur-Lavi, SR Cohen, E Joselevich Nature nanotechnology 1 (1), 36-41, 2006 | 168 | 2006 |
Functionalization of carbon nanotube AFM probes using tip-activated gases SS Wong, AT Woolley, E Joselevich, CM Lieber Chemical Physics Letters 306 (5-6), 219-225, 1999 | 157 | 1999 |
Self-organized nanotube serpentines N Geblinger, A Ismach, E Joselevich Nature nanotechnology 3 (4), 195-200, 2008 | 133 | 2008 |
Surface-Guided CsPbBr3 Perovskite Nanowires on Flat and Faceted Sapphire with Size-Dependent Photoluminescence and Fast Photoconductive Response E Oksenberg, E Sanders, R Popovitz-Biro, L Houben, E Joselevich Nano letters 18 (1), 424-433, 2018 | 126 | 2018 |
Guided growth of horizontal ZnO nanowires with controlled orientations on flat and faceted sapphire surfaces D Tsivion, M Schvartzman, R Popovitz-Biro, E Joselevich ACS nano 6 (7), 6433-6445, 2012 | 120 | 2012 |
Mechanism of near-field Raman enhancement in one-dimensional systems LG Cançado, A Jorio, A Ismach, E Joselevich, A Hartschuh, L Novotny Physical review letters 103 (18), 186101, 2009 | 113 | 2009 |