| 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 | 187 | 2016 |
| Modulating the electronic properties along carbon nanotubes via tube− substrate interaction JS Soares, APM Barboza, PT Araujo, NM Barbosa Neto, D Nakabayashi, ... Nano letters 10 (12), 5043-5048, 2010 | 55 | 2010 |
| Composite anode material made of core-shell particles D Jacob, S Remizov, N Shadmi, H Farran, D Aronov US Patent 10,454,101, 2019 | 24 | 2019 |
| Defect-free carbon nanotube coils N Shadmi, A Kremen, Y Frenkel, ZJ Lapin, LD Machado, SB Legoas, ... Nano letters 16 (4), 2152-2158, 2016 | 19 | 2016 |
| Composite anode material made of ionic-conducting electrically insulating material D Jacob, S Remizov, N Shadmi, H Farran, D Aronov US Patent 10,505,181, 2019 | 16 | 2019 |
| Composite anode material made of ionic-conducting electrically insulating material D Jacob, S Remizov, N Shadmi, H Farran, D Aronov US Patent App. 15/853,885, 2018 | 16 | 2018 |
| Photoconductive CdSe nanowire arrays, serpentines, and loops formed by electrodeposition on self-organized carbon nanotubes XW Gu, N Shadmi, TS Yarden, H Cohen, E Joselevich The Journal of Physical Chemistry C 116 (37), 20121-20126, 2012 | 15 | 2012 |
| Dynamics of the formation of carbon nanotube serpentines LD Machado, SB Legoas, JS Soares, N Shadmi, A Jorio, E Joselevich, ... Physical review letters 110 (10), 105502, 2013 | 12 | 2013 |
| Guided growth of horizontal single-wall carbon nanotubes on M-plane sapphire N Shadmi, E Sanders, E Wachtel, E Joselevich The Journal of Physical Chemistry C 119 (15), 8382-8387, 2015 | 10 | 2015 |
| Raman study of nanotube–substrate interaction using single‐wall carbon nanotubes grown on crystalline quartz JS Soares, EB Barros, N Shadmi, E Joselevich, A Jorio physica status solidi (b) 248 (11), 2536-2539, 2011 | 8 | 2011 |
| Formation of ordered vs disordered carbon nanotube serpentines on anisotropic vs isotropic substrates N Shadmi, N Geblinger, A Ismach, E Joselevich The Journal of Physical Chemistry C 118 (25), 14044-14050, 2014 | 7 | 2014 |
| Strain discontinuity, avalanche, and memory in carbon nanotube serpentine systems LC Müssnich, H Chacham, JS Soares, NM Barbosa Neto, N Shadmi, ... Nano Letters 15 (9), 5899-5904, 2015 | 5 | 2015 |
| Methods of preparing anodes using tin as active material D Burshtain, S Remizov, D Jacob, N Shadmi, H Farran, L Shapiro, ... US Patent 10,367,193, 2019 | 4 | 2019 |
| Graphite-carbohydrate active material particles with carbonized carbohydrates D Jacob, S Remizov, N Shadmi, H Farran, D Aronov, B Brudnik US Patent 10,468,727, 2019 | 3 | 2019 |
| Charge transfer between carbon nanotubes on surfaces KAS Araujo, APM Barboza, TFD Fernandes, N Shadmi, E Joselevich, ... Nanoscale 7 (39), 16175-16181, 2015 | 2 | 2015 |
| On the formation of carbon nanotube serpentines: insights from multi-million atom molecular dynamics simulation LD Machado, SB Legoas, JS Soares, N Shadmi, A Jorio, E Joselevich, ... MRS Online Proceedings Library (OPL) 1284, mrsf10-1284-c05-03, 2011 | 1 | 2011 |
| Anode material particles with porous carbon-based shells D Jacob, S Remizov, N Shadmi, H Farran, D Aronov, B Brudnik US Patent 10,903,530, 2021 | | 2021 |
| Passivated silicon-based anode material particles O Goldbart, N Shadmi, H Farran, D Aronov US Patent App. 16/394,112, 2020 | | 2020 |
| Tin silicon anode active material D Burshtain, S Remizov, D Jacob, N Shadmi, H Farran, L Shapiro, ... US Patent 10,367,191, 2019 | | 2019 |
| Organization of novel carbon nanotube structures on surfaces: Synthesis, characterization and physical properties N Shadmi PQDT-Global, 2016 | | 2016 |
