Publications

Rehovot, May 2013
  1. R. Levi, O. Bitton, G. Leitus, R. Tenne and E. Joselevich.
    Field-Effect Transistors Based on WS2 Nanotubes with High Current-Carrying Capacity.
    Nano Lett. 2013, DOI:10.1021/nl401675k.
  2. M. Schvartzman, D. Tsivion, D. Mahalu, O. Raslin and E. Joselevich.
    Self-integration of nanowires into circuits via guided growth.
    Proc. Nat. Acad. Sci. USA 2013, DOI:10.1073/pnas.1306426110.
  3. L. D. Machado, S. B. Legoas, J. S. Soares, N. Shadmi, A. Jorio, E. Joselevich and D. S. Galvão.
    Dynamics of the Formation of Carbon Nanotube Serpentines.
    Phys. Rev. Lett., 2013, 110, 105502. (Cover issue of 8 March 2013)
  4. J. Garel, I. Leven, C. Zhi, K.S. Nagapriya, R. Popovitz-Biro, D. Golberg, Y. Bando, O.Hod and E. Joselevich.
    Ultrahigh Torsional Stiffness and Strength of Boron Nitride Nanotubes.
    Nano Lett., 2012, 12, 6347−6352.
  5. X. W. Gu, N. Shadmi, T. S. Yarden, H. Cohen and E. Joselevich.
    Photoconductive CdSe Nanowire Arrays, Serpentines, and Loops Formed by Electrodeposition on Self-Organized Carbon Nanotubes.
    J. Phys. Chem. C 2012, 116, 20121–20126.
  6. D. Tsivion, M. Schvartzman, R. Popovitz-Biro and E. Joselevich.
    Guided Growth of Horizontal ZnO Nanowires with Controlled Orientations on Flat and Faceted Sapphire Surfaces
    ACS Nano 2012, 6, 6433-6445.
  7. P. T. Araujo, N. M. Barbosa Neto, H. Chacham, S. S. Carara, J. S. Soares, A. D. Souza, L. G. Cançado, A. B. de Oliveira, R. J. C. Batista, E. Joselevich, M. S. Dresselhaus and A. Jorio.
    In Situ Atomic Force Microscopy Tip-Induced Deformations and Raman Spectroscopy Characterization of Single-Wall Carbon Nanotubes
    Nano Lett. 2012, 12, 4110-4116.
  8. J. S. Soares, E. B. Barros, N. Shadmi, E. Joselevich and A. Jorio.
    Raman study of nanotube–substrate interaction using single-wall carbon nanotubes grown on crystalline quartz.
    Phys. Status Solidi B 2011, 248, 2536-2539.
  9. D. Tsivion, M. Schvartzman, R. Popovitz-Biro, P. von Huth and E. Joselevich.
    Guided Growth of Millimeter-Long Horizontal Nanowires with Controlled Orientations.
    Science 2011, 333, 1003-1007. (Highlighted in MRS Bulletin 2011, 36:724).
  10. R. Blonder, E. Joselevich and S. R. Cohen.
    Atomic Force Microscopy: Opening the Teaching Laboratory to the Nanoworld.
    J. Chem. Educ. 2010, 87, 1290-1293.
  11. J. S. Soares, A. P. M. Barboza, P. T. Araujo, N. M. Barbosa Neto, D. Nakabayashi, N. Shadmi, T. S. Yarden, A. Ismach, N. Geblinger, E. Joselevich, C. Vilani, L. G. Cançado, L. Novotny, G. Dresselhaus, M. S. Dresselhaus, B. R. A. Neves, M. S. C. Mazzoni and A. Jorio.
    Modulating the Electronic Properties along Carbon Nanotubes via Tube−Substrate Interaction.
    Nano Lett. 2010, 10, 5043-5048.
  12. T. S. Yarden and E. Joselevich.
    "Drawing with Nanotubes": Creating Nanowires with Complex Geometries by Pulsed Electrodeposition on Self-Organized Carbon Nanotube Patterns.
    Nano Lett. 2010, 10, 4742-4749.
  13. N. Marom, J. Bernstein, J. Garel, A. Tkatchenko, E. Joselevich, L. Kronik and O. Hod.
    Stacking and Registry Effects in Layered Materials: The Case of Hexagonal Boron Nitride.
    Phys. Rev. Lett. 2010, 105, 046801.
  14. L. G. Cançado, A. Jorio, A. Ismach, E. Joselevich, A. Hartschuh and L. Novotny.
    Mechanism of Near-Field Raman Enhancement in One-Dimensional Systems.
    Phys. Rev. Lett. 2009, 103, 186101.
  15. E. Joselevich.
    Self-Organized Growth of Complex Nanotube Patterns on Crystal Surfaces.
    Nano Res. 2009, 2, 743-754.
  16. P. G. Petrov, S. Machluf, S. Younis, R. Macaluso, T. David, B. Hadad, Y. Japha, M. Keil, E. Joselevich and R. Folman.
    Trapping cold atoms using surface-grown carbon nanotubes.
    Phys. Rev. A 2009, 79, 043403.
  17. K. S. Nagapriya, O. Goldbart, I. Kaplan-Ashiri, G. Seifert, R. Tenne and E. Joselevich.
    Torsional Stick-Slip Behavior in WS2 Nanotubes.
    Phys. Rev. Lett. 2008, 101, 195501.
  18. K. S. Nagapriya, S. Berber, T. Cohen-Karni, L. Segev, O. Srur-Lavi, D. Tománek and E. Joselevich.
    Origin of Torsion-Induced Conductance Oscillations in Carbon Nanotubes.
    Phys. Rev. B. 2008, 78, 165417.
  19. N. Geblinger, A. Ismach and E. Joselevich.
    Self-Organized Nanotube Serpentines.
    Nature Nanotechnology. 2008, 3, 195-200. (Cover of April issue).
  20. E. Joselevich, H. Dai, J. Liu, K. Hata and A. H. Windle.
    Carbon Nanotube Synthesis and Organization.
    Top. Appl. Phys. 2008, 111, 101-164. (Invited book chapter: Carbon Nanotubes: Advanced Topics in the Synthesis, Structure, Properties and Applications, Eds.; A. Jorio, M. S. Dresselhaus, and G. Dresselhaus; Springer, 2008).
  21. R. Gabai, A. Ismach and E. Joselevich.
    Nanofacet Lithography: A New Bottom-Up Approach to Nanopatterning and Nanofabrication by Soft Replication of Spontaneously Faceted Crystal Surfaces.
    Adv. Mater. 2007, 19, 1325-1330.
  22. T. Cohen-Karni, L. Segev, O. Srur-Lavi, S. R. Cohen and E. Joselevich.
    Torsional electromechanical quantum oscillations in carbon nanotubes.
    Nature Nanotechnology 2006, 1, 36-41. (1st paper in the 1st issue of Nature Nanotechnology.)
  23. A. Ismach and E. Joselevich.
    Orthogonal Self-Assembly of Carbon Nanotube Crossbar Architectures by Simultaneous Graphoepitaxy and Field-Directed Growth.
    Nano. Lett. 2006, 6, 1706-1710.
  24. E. Joselevich.
    Twisting Nanotubes: From Torsion to Chirality.
    ChemPhysChem 2006, 7, 1405-1407. (Invited Highlight).
  25. A. Ismach, D. Kantorovich and E. Joselevich.
    Carbon Nanotube Graphoepitaxy: Highly Oriented Growth by Faceted Nanosteps.
    J. Am. Chem. Soc. 2005, 127, 11554-11555.
  26. R. Gabai, L. Segev and E. Joselevich.
    Single-Polymer Chains as Specific Transducers of Molecular Recognition in Scanning Probe Microscopy.
    J. Am. Chem. Soc. 2005, 127, 11390 - 11398.
  27. A. Ismach, L. Segev, E. Wachtel and E. Joselevich.
    Atomic Step-Templated Assembly of Single-Wall Carbon Nanotube Patterns.
    Angew. Chem. Int. Ed. 2004, 43, 6140-6143. (Cover of Angewandte Chemie, 17 November; Press release by Angew. Chem.; Highlights in Chemistry World and Small)
  28. M. Souza, A. Jorio, C. Fantini, B. R. A. Neves, M. A. Pimenta, R. Saito, A. Ismach, E. Joselevich, V. W. Brar, Ge. G. Samsonidze, G. Dresselhaus and M. S. Dresselhaus.
    Single- and double-resonance Raman G-band process in carbon nanotubes.
    Phys. Rev. B 2004, 241403R.
  29. E. Joselevich.
    Chemistry and Electronics of Carbon Nanotubes Go Together.
    Angew. Chem. Int. Ed. 2004, 43, 2992-2994. (Invited Highlight)
  30. E. Joselevich.
    Electronic Structure and Chemical Reactivity of Carbon Nanotubes: A Chemist’s View.
    ChemPhysChem 2004, 5, 619-624.
  31. J. Appenzeller, E. Joselevich and W. Hönlein.
    Carbon Nanotubes for Data Processing.
    Nanoelectronics and Information Technology: Advanced Electronic Materials and Novel Devices, R. Waser, Ed.; John Wiley, 2003.
  32. E. Joselevich and C.M. Lieber.
    Vectorial Growth of Metallic and Semiconducting Single-Wall Carbon Nanotubes.
    Nano Lett. 2002, 2, 1137-1142.
  33. T. Rueckes, K. Kim , E. Joselevich, G.Y. Tseng, C.L. Cheung and C.M. Lieber.
    Carbon Nanotube Based Nonvolatile Random Access Memory for Molecular Computing.
    Science 2000, 289, 94.
  34. I. Willner and E. Joselevich.
    Light-Driven Electron Transfer through a Water-Oil Interface by a Shuttle Photosensitizer: Photoinduced Electron Transfer from Tributylamine to Fe(CN)63- Using Ethyl Eosin as a Mediator in a Water-in-Oil Microemulsion System.
    J. Phys. Chem. B 1999, 103, 9262 -9268.
  35. S.S. Wong, A.T. Woolley, E. Joselevich and C.M. Lieber.
    Functionalization of carbon nanotube AFM probes using tip-activated gases.
    Chem. Phys. Lett. 1999, 306, 219-225.
  36. I. Willner, A. Schlittner, A. Doron and E. Joselevich.
    Association of Anti-Dinitrophenyl Antibody onto a Patterned Organosiloxane Antigen Monolayer Prepared by Microcontact Printing: An AFM Characterization.
    Langmuir 1999, 15, 2766-2772.
  37. A. Doron, E. Joselevich, A. Schlittner and I. Willner.
    AFM Characterization of Au Colloid Monolayers, Mechanical Sweeping and Chemical Etching.
    Thin Solid Films 1999, 340, 183-188.
  38. S.S. Wong, A.T. Woolley, E. Joselevich, C.L. Cheung and C.M. Lieber.
    Covalently Functionalized Single-Walled Carbon Nanotube Probe Tips for Chemical Force Microscopy.
    J. Am. Chem. Soc. 1998, 120, 8557-8558.
  39. I. Willner, E. Kaganer, E. Joselevich, H. Dürr, E. David, M.J. Gunter and M.R. Johnson.
    Photoinduced Electron Transfer in Supramolecular Assemblies of Transition Metal Complexes.
    Coordin. Chem. Rev. 1998, 171, 261-285.
  40. S.S. Wong, E. Joselevich, A.T. Woolley, C.L. Cheung and C.M. Lieber.
    Covalently functionalized nanotubes as nanometre-sized crobes in chemistry and biology.
    Nature 1998, 394, 52-55. (Cover of Nature, 2 July)
  41. E. Kaganer, E. Joselevich, I. Willner, Z. Chen, M.J. Gunter, T.P. Gayness and M.R. Johnson.
    Photoinduced Electron Transfer in π-Donor Capped Zn(II)-Porphyrin and N,N'-Dimethyl- 4,4'-Bipyridinium Supramolecular Assemblies.
    J. Phys. Chem. 1998, 102, 159-1165.
  42. E. David, R. Born, E. Kaganer, E. Joselevich, H. Dürr and I.Willner.
    Photoinduced Electron Transfer in Supramolecular Assemblies Composed of One-Shell and Two-Shell Dialkoxybenzene-Tethered Ruthenium(II)-tris(bipyridine) Derivatives and a Bipyridinium Cyclophane.
    J. Am. Chem. Soc. 1997, 119, 7778-7790.
  43. K.T. Ranjit, E. Joselevich and I. Willner.
    Enhanced Photocatalytic Degradation of π-Donor Organic Compounds by N,N'-dialkyl-4,4'-bipyridinium Modified TiO2 Particles.
    J. Photochem. Photobiol. A: Chem. 1996, 99, 185-189.
  44. M. Kropf, E. Joselevich, H. Dürr and I. Willner.
    Photoinduced Electron Transfer in Supramolecular Assemblies Composed of Alkoxyanisyl- Tethered Ruthenium(II)-Tris(bipyridazine) Complexes and a Bipyridinium Cyclophane Electron Acceptor.
    J. Am. Chem. Soc. 1996, 118, 665.
  45. I. Willner, E. Zahavy, S. Marx-Tibbon, E. Joselevich, M.Seiler, H. Dürr, D. O'Connor and A. Harriman.
    Effective Charge-Separation in Intermolecular Complexes of an Electron-Donor and a Doubly Branched Triad Assembly: A Model System for the Environmental Effects Controlling the Electron-Transfer in the Photosynthetic Reaction Center.
    Angew. Chem. Int., Ed. Eng. 1995, 34, 1005-1008.
  46. E. Joselevich and I. Willner.
    Photoinduced Electron Transfer from Eosin and Ethyl Eosin to Fe(CN)63- in AOT Reverse Micelles: Separation of Redox Products by Electron-Transfer-Induced Hydrophobicity.
    J. Phys. Chem. 1995, 99, 6903-6912.
  47. E. Joselevich and I. Willner.
    Photosensitization of Quantum-Size TiO2 Particles in Water-in-Oil Microemulsions.
    J. Phys. Chem. 1994, 98, 7628-7635.
  48. M. Seiler, H. Dürr, I. Willner, E. Joselevich, A. Doron and J.F. Stoddart.
    Photoinduced Electron Transfer in Supramolecular Assemblies Composed of Dialkoxybenzene- Tethered Ru(II)-tris-bipyridine and Bipyridinium Salts.
    J. Am. Chem. Soc. 1994, 116, 3399-3404.
  49. H. Dürr, R. Schwarz, I. Willner, E. Joselevich and Y. Eichen.
    Formation of Supramolecular Complexes of Ru(II)-tris-oligoethyleneglycol Bipyridazines with Alkali and Alkali Earth Metal Ions.
    J. Chem. Soc. Chem. Commun. 1992, 1338-1339.
  50. I. Willner, Y. Eichen, E. Joselevich and A.J. Frank.
    Characterization of Rose-Bengal-N,N-Dimethyl-Bipyridinium Complexes and Their Separation in Aqueous SiO2 Colloids: Photophysical Properties of Rose-Bengal in the Microheterogeneous System.
    J. Phys. Chem. 1992, 96, 6061-6066.
  51. I. Willner, Y. Eichen and E. Joselevich.
    Photosensitized Electron-Transfer Reactions and H2-Evolution in Organized Microheterogeneous Environments: Separation of Ground-State Xanthene-Bipyridinium Complexes by Means of SiO2-Colloids.
    J. Phys. Chem. 1990, 94, 3092-3098.
Patents
  1. PRODUCING AN ARRAY OF NANOSCALE STRUCTURES ON A SUBSTRATE SURFACE VIA A SELF-ASSEMBLED TEMPLATE
    Inventors:
    E. Joselevich, R. Gabai and A. Ismach
    Weizmann Institute of Science, through Yeda Ltd., Rehovot 76100, Israel
    Filed in February 2007
    Patent Cooperation Treaty (PCT) Application
    Pending
  2. MOLECULAR WIRES, ARRAYS, AND METHODS OF THEIR MANUFACTURE
    Inventors:
    C.M. Lieber, T. Rueckes, E. Joselevich and K. Kim
    All rights assigned to the President and Fellows of Harvard College, Cambrigde, Massachusetts, U.S.A.
    Filed in May 1999
    United States Patent Application 20020130353, December 12, 2000
    Licenced to Nantero, Inc., Massachusetts, and Nanosystems, Inc., Massachusetts.
  3. NANOMETER-SCALE MICROSCOPY PROBES
    Inventors:
    C.M. Lieber, S.S. Wong, A.T. Woolley and E. Joselevich
    All rights assigned to the President and Fellows of Harvard College, Cambrigde, Massachusetts, U.S.A.
    Filed in June 1998
    United States Patent 6,159,742
    Licenced to Nanosystems, Inc., Massachusetts