R. Naamna and Z. Vager, "New electronic and Magnetic Properties emerging from Adsorption of Organized Organic Layers",  Phys. Chem. Chem. Phys. (PCCP), 8, 2217-2224 (2006). [Full text]

S.G. Ray, S. S. Daube, G. Leitus, Z. Vager, and R. Naaman, "Chirality induced spin-selective properties of self-assembled monolayers of DNA on gold", Phys. Rev. Lett. 96, 036101 (2006). [Full text]

D. Cahen, R. Naaman, and Z. Vager, "Cooperative molecular field effect", Advanced Functional Materials 15, 1571 (2005). [Full text]

Z. Vager and R. Naaman, "Bosons as the origin for giant magnetic properties of organic monolayers", Phys. Rev. Lett. 9(8), 87205 (2004). [Full text]

Z. Vager, I. Carmeli, G. Leitus, S. Reich, and R. Naaman, "Surprising electronic-magnetic properties of closed packed organized organic layers", J. Phys. Chem. of Solids 65, 713 (2004). [Full text]

V. S. L’vov, R. Naaman, V. Tiberkevichand, and Z. Vager, "Cooperative effect in electron trasfer between metal substrate and organized organic layers", Chem. Phys. Lett. 381, 650 (2003). [Full text]

I. Carmeli, G. Leitus, R. Naaman, S. Reich, and Z. Vager, "Magnetism induced by the organization of self -assembled monolayers", J. Chem. Phys. 118, 10372 (2003). [Full text]

I. Carmeli, Z. Gefen, Z. Vager, and R. Naaman, "Alternation between modes of electron transmission through organized organic layers", Phys. Rev. B 68, 115418 (2003). [Full text]

Y. Paltiel, A. Haroni, U. Banin, O. Neuman, R. Naaman, "Self-Assembling of InAs Nanocrystals on GaAs - The Effect of Electronic Coupling and Embedded Gold Nanoparticles on the Photoluminescence",  Appl. Phys. Lett., 89, 033108 (2006). [Full text]

Y. Paltiel, A. Haroni, U. Banin, O. Neuman, R. Naaman, "Self-Assembling of InAs Nanocrystals on GaAs - The Effect of Electronic Coupling and Embedded Gold Nanoparticles on the Photoluminescence",  Appl. Phys. Lett., 89, 033108 (2006). [Full text]

Y. Paltiel, A. Sher, A. Raizman, D. Majer, A. Arbel, A. Feingold, J. Levy, and R. Naaman, "Uncooled infrared detector using a thin InAsSb layer acting as a gate on a GaAs Field Effect Trasistor", IEEE Sensors Journal 6, 1195 (2006). [Full text]

M. Hazani, F. Hennrich, M. M. Kappes, R. Naaman, D. Peled, V. Sidorov, and D. Shvarts, "DNA mediated self assembly of carbon nanotube based electronic devices", Chem. Phys. Lett. 391, 389 (2004). [Full text]

M. Hazani, R. Naaman, F. Hennrich, and M. M. Kappes, "Confocal fluorescence imaging of DNA functionalized carbon nanotubes", Nanoletters 3(2), 153 (2003). [Full text]

M. R. Goldsmith, C. C. George, G Zuber, R. Naaman, D. H. Waldeck, P. Wipf, and D. N. Beratan, "The chroptical signature of achiral metal clusters induced by dissymmetric adsorbates",  Physical Chemistry Chemical Physics (PCCP) (2006) In press. [Full text]

S. G. Ray, H. Cohen, R. Naaman, Haiying Liu, and D.H. Waldeck, "Organization induced charge redistribution in self-assembled organic monolayers on gold", J. Phys. Chem. B 109, 14064 (2005). [Full text]

J. J. Wei, C. Schafmeister, G. Bird, A. Paul, R. Naaman, and D. H. Waldeck, "Molecular chirality and charge transfer through self-assembled scaffold monolayer", J. Phys. Chem. B (2005). In Press

H.A. Walling, R. Artzi, E.G. Gwinn, R. Naaman, K.L. Campman, and A.C. Gossard, "Molecular tuning of quantum Hall edge states", Solid State Communications 17, 707 (2003). [Full text]

T. C. Kreutz, E. G. Gwinn, R. Artzi, R. Naaman, H. Pizem, and C. N. Sukenik, "Modification of ferromagnetism in semiconductors by molecular monolayers", App. Phys. Lett. 83, 4211 (2003). [Full text]

M. R. Goldsmith, C. C. George, G Zuber, R. Naaman, D. H. Waldeck, P. Wipf, and D. N. Beratan, "The chroptical signature of achiral metal clusters induced by dissymmetric adsorbates",  Physical Chemistry Chemical Physics (PCCP) (2006) In press. [Full text]

D. Cahen, R. Naaman, and Z. Vager, "Cooperative molecular field effect", Advanced Functional Materials 15, 1571 (2005). [Full text]

D. Shvarts, A. Haran, R. Benshafrut, D. Cahen, and R. Naaman, "Monitoring electron redistribution in molecules during adsorption", Chem. Phys. Lett. 354, 305 (2002). [Full Text]

D. G. Wu, D. Cahen, P. Graf, R. Naaman, A. Nitzan, and D. Shvarts, "Direct detection of low concentration NO in physiological solutions by a new GaAs-based sensor", Chem. Eur. J. 7, 1743 (2001). [Full text]

D.G. Wu, G. Ashkenasy, D. Shvarts, R. V. Ussyshkin, R. Naaman, A. Shanzer, and D. Cahen, "Novel NO biosensor based on surface derivatization of GaAs by "hinged" iron-porphyrins", Angew. Chemie Int. Edi. 39, 4496 (2000). [Full text]

K. Gartsman, D. Cahen, A. Kadyshevitch, J. Libman, T. Moav, R. Naaman, A. Shanzer, V. Umansky, and A. Vilan, "Molecular control of a GaAs transistor", Chem. Phys. Lett. 283, 301 (1998). [Full text]

A. Vilan, R. Ussyshkin, K. Gartsman, D. Cahen, R. Naaman, and A. Shanzer, "Real time monitoring of adsorption kinetics: Evidence for 2-site adsorption mechanism of dicarboxylic acids on GaAs(100)", J. Phys. Chem. B, 102, 3307-3309 (1998). [Full text]

D. G. Wu, D. Cahen, P. Graf, R. Naaman, A. Nitzan, and D. Shvarts, "Direct detection of low concentration NO in physiological solutions by a new GaAs-based sensor", Chem. Eur. J. 7, 1743 (2001). [Full text]

R. Naaman, A. Haran, A. Nitzan, D. Evans, and M. Galperin, "Electron transmission through molecular layers" (Feature article), J. Phys. Chem. B, 102, 3658 (1998). [Full text]