Recognizing a single base in an individual DNA strand: a step toward nanopore DNA sequencing N Ashkenasy, J Sánchez-Quesada, MR Ghadiri, H Bayley Angewandte Chemie (International ed. in English) 44 (9), 1401, 2005 | 306 | 2005 |
Design of self‐assembling peptide nanotubes with delocalized electronic states N Ashkenasy, WS Horne, MR Ghadiri Small 2 (1), 99-102, 2006 | 255 | 2006 |
Modulating Charge Transfer through Cyclic D,L‐α‐Peptide Self‐Assembly WS Horne, N Ashkenasy, MR Ghadiri Chemistry–A European Journal 11 (4), 1137-1144, 2005 | 152 | 2005 |
Tailor‐made functional peptide self‐assembling nanostructures M Amit, S Yuran, E Gazit, M Reches, N Ashkenasy Advanced Materials 30 (41), 1707083, 2018 | 118 | 2018 |
STM/AFM studies of the evolution of morphology of electroplated Ni/W alloys L Zhu, O Younes, N Ashkenasy, Y Shacham-Diamand, E Gileadi Applied surface science 200 (1-4), 1-14, 2002 | 113 | 2002 |
Transient fibril structures facilitating nonenzymatic self-replication B Rubinov, N Wagner, M Matmor, O Regev, N Ashkenasy, G Ashkenasy ACS nano 6 (9), 7893-7901, 2012 | 106 | 2012 |
Surface photovoltage spectroscopy study of reduced and oxidized nanocrystalline TiO2 films A Rothschild, A Levakov, Y Shapira, N Ashkenasy, Y Komem Surface science 532, 456-460, 2003 | 104 | 2003 |
Surface states and photovoltaic effects in CdSe quantum dot films L Kronik, N Ashkenasy, M Leibovitch, E Fefer, Y Shapira, S Gorer, ... Journal of the Electrochemical Society 145 (5), 1748, 1998 | 95 | 1998 |
Electronic and transport properties of reduced and oxidized nanocrystalline films A Rothschild, Y Komem, A Levakov, N Ashkenasy, Y Shapira Applied physics letters 82 (4), 574-576, 2003 | 92 | 2003 |
Hybrid proton and electron transport in peptide fibrils M Amit, S Appel, R Cohen, G Cheng, IW Hamley, N Ashkenasy Advanced Functional Materials 24 (37), 5873-5880, 2014 | 75 | 2014 |
Quantitative evaluation of chemisorption processes on semiconductors A Rothschild, Y Komem, N Ashkenasy Journal of applied physics 92 (12), 7090-7097, 2002 | 72 | 2002 |
Charge transport in vertically aligned, self-assembled peptide nanotube junctions M Mizrahi, A Zakrassov, J Lerner-Yardeni, N Ashkenasy Nanoscale 4 (2), 518-524, 2012 | 69 | 2012 |
Conductance of amyloid β based peptide filaments: structure–function relations M Amit, G Cheng, IW Hamley, N Ashkenasy Soft Matter 8 (33), 8690-8696, 2012 | 64 | 2012 |
De novo designed coiled-coil proteins with variable conformations as components of molecular electronic devices C Shlizerman, A Atanassov, I Berkovich, G Ashkenasy, N Ashkenasy Journal of the American Chemical Society 132 (14), 5070-5076, 2010 | 62 | 2010 |
The controlled fabrication of nanopores by focused electron-beam-induced etching M Yemini, B Hadad, Y Liebes, A Goldner, N Ashkenasy Nanotechnology 20 (24), 245302, 2009 | 59 | 2009 |
Sequence dependent proton conduction in self-assembled peptide nanostructures JL Yardeni, M Amit, G Ashkenasy, N Ashkenasy Nanoscale 8 (4), 2358-2366, 2016 | 58 | 2016 |
Building Logic into Peptide Networks: Bottom‐Up and Top‐Down G Ashkenasy, Z Dadon, S Alesebi, N Wagner, N Ashkenasy Israel Journal of Chemistry 51 (1), 106-117, 2011 | 58 | 2011 |
The strong influence of structure polymorphism on the conductivity of peptide fibrils D Ivnitski, M Amit, O Silberbush, Y Atsmon‐Raz, J Nanda, R Cohen‐Luria, ... Angewandte Chemie International Edition 55 (34), 9988-9992, 2016 | 55 | 2016 |
Proton‐conductive melanin‐like fibers through enzymatic oxidation of a self‐assembling peptide SMM Reddy, E Raßlenberg, S Sloan‐Dennison, T Hesketh, O Silberbush, ... Advanced Materials 32 (46), 2003511, 2020 | 49 | 2020 |
Significant enhancement of proton transport in bioinspired peptide fibrils by single acidic or basic amino acid mutation O Silberbush, M Amit, S Roy, N Ashkenasy Advanced Functional Materials 27 (8), 1604624, 2017 | 48 | 2017 |