List of Publications of Ron Naaman - The Journal of Physical

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List of Publications of Ron Naaman 1. G. Fischer and R. Naaman, ″Vapor phase Absorption Spectrum of 1 Azaindolizine″ J. Molec. Spectrosc. 57, 284 (1975). 2. G. Fischer and R. Naaman, ″Near Resonance Vibronic Coupling. Isoquinoline″ Chem. Phys. 12, 367 (1976). 3. G. Fischer and R. Naaman, ″The Generation of Sharp Fluctuation in the Line Width of Electronic Absorption Spectra. Application to Benzene″ Chem. Phys. Lett. 42, 581 (1976). 4. R. Naaman and G. Fischer, ″Non-Exponential-Fluorescence Decay in Pyrazine″ Chem. Phys. 19, 377 (1977). 5. R. Naaman, V. Yakhot and G. Fischer, ″Nonlinear Pressure Dependence of fluorescence Quenching. Intermolecular Intersystem Crossing″ J. Chem. Phys. 67, 5472 (1977). 6. G. Fischer, S. Jacobson and R. Naaman, ″On Anomalies in the Absorption Spectrum of Benzene Vapor and the Mechanism of Electronic Relaxation″ Chem. Phys. Lett. 49, 427 (1977). 7. R. Naaman, D.M. Lubman and R.N. Zare, ″Radiationless Processes in a Molecular Beam; Time Resolved Emission from Benzophenone″ Chem. Phys. 32, 17 (1978). 8. Z. Karny, R. Naaman and R.N. Zare, ″Production of Excited Metal Atoms by UV Multiphoton Dissociation of Metal Alkyl and Metal Carbonyl Compounds″ Chem. Phys. Lett. 59, 33 (1978). 9. R. Naaman, D.M. Lubman and R.N. Zare, ″Time Resolved Emission from Benzophenone in a Molecular Beam″ in Advances in Laser Chemistry; A.H. Zewail, Ed.; Springer Series in Chemical Physics (Springer, Berlin, Heidelberg, New York, 1978). 10. J. Allison, Z. Karny, R. Naaman and R.N. Zare, ″The Production of Excited Metal Atoms by Fragmentation of Metal Carbonyls and Other Metal-Encapsulated Compounds″ Thirty-First Annual Gaseous Electronic Conference, Buffalo (Oct. 1978). 11. R. Naaman, D.M. Lubman and R.N. Zare, ″Vibrational Redistribution in Glyoxal After Radiationaless Transition Processes″ J. Chem. Phys. 71, 4192 (1979). 12. B. Scharf and R. Naaman, ″Considering the Importance of Higher order Mechanisms of the Cross Type in the Theory of Radiationless Transitions″ Chem. Phys. Lett. 59, 151 (1978). 13. R. Naaman and R.N. Zare, ″The Role of Coherent Excitation in IR Multiphoton Absorption″ Faraday Discuss. 67, ″Kinetic of State Selected Species″. 14. D.M. Lubman, R. Naaman and R.N. Zare, ″Multiphoton Ionization of Azulene and Naphthalene” J. Chem. Phys. 72, 3034 (1980). 15. R. Naaman, D.M. Lubman and R.N. Zare, ″Does Internal Conversion Result in the Statistical Redistribution of Energy?″ J. Mol. Struct. 59, 225 (1980). 16. R. Naaman, S.J. Buelow, O. Cheshnovsky and D.R. Herschbach, ″Surface Enhanced Raman Scattering from © 2013 Ron Naaman

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Molecules Adsorbed on Mercury″ J. Phys. Chem. 84, 2692 (1980). D.M. Lubman and R. Naaman, ″Surface Enhanced Multiphoton Ionization Signal″ Chem. Phys. Lett. 95, 325 (1983). R. Naaman, A. Petrank and D.M. Lubman, ″Surface Amplification of Photoionization Signal″ J. Chem. Phys. 79, 4608 (1983). R. Naaman, ″The Effect of van der Waals Molecules’ Lifetime on Their Reactions″ Faraday Discuss. 75, 257 (1983). R. Naaman, ″Determination of SO2 dimers in Molecular Beam″ Faraday Discuss. 75, 410 (1983). S. Cohen and R. Naaman, ″Rotational and Vibrational Temperature of Fragments in Unimolecular Decomposition″ Faraday Discuss. 75, 207 (1983). J. Nieman and R. Naaman, ″Reaction of Ba with (SO2)2 and (CO2)2″ Chem. Phys. 90, 407 (1984). D. Worsnop, J. Nieman and R. Naaman, ″Reaction of Ba with IX(X = Cl, Br)″ Chem. Phys. Lett. 109, 516 (1984). A. Petrank and R. Naaman, ″Surface Enhanced Photoionization Signal from Semiconductor Surfaces″ J. Phys. Chem. 88, 3942 (1984). A. Petrank, D. Lubman and R. Naaman, ″Surface Amplif ication of Photoionization Signal - A Probe for Adsorbed Molecules″; B. Pullman, Ed.; Dynamics on Surfaces Series, Reidly (1984). J. Nieman, J. Shwartz and R. Naaman, ″Reactions of O with CO van der Waals Molecules and Clusters″ Z. Phys. D 1, 231 (1986). J. Nieman and R. Naaman, ″Reaction of O(3P) and NO Clusters - Angular Distribution of the Product″ J. Chem. Phys. 84, 3825 (1986). E. Pollak and R. Naaman, ″IR Laser-Induced Resonance Enhancement of Reactivity of Bimolecular Collisions″ Chem. Phys. Lett. 123, 352 (1986). I. Plesser, Z. Vager and R. Naaman, ″The Structure of C3 as Measured by the ‘Coulomb Explosion’ Technique″ Phys. Rev. Lett. 56, 1559 (1986). S.R. Cohen, R. Naaman and J. Sagiv, ″Thermally Induced Disorder in Organized Organic Monolayers on Solid Substrate″ J. Phys. Chem. 90, 3054 (1986). S. Cohen, R. Naaman and J. Sagiv, ″Translational Energy Transfer from Molecules and Atoms to Adsorbed Organic Monolayers of Long-Chain Amphiphiles″ Phys. Rev. Lett. 58, 1208 (1987). D.J. Donaldson, V. Vaida and R. Naaman, ″Ultraviolet Absorption Spectroscopy of Dissociating Molecules: Effects of Cluster Formation on Photodissociation of CH3I″ J. Chem. Phys. 87, 2522 (1987). D.J. Donaldson, V. Vaida and R. Naaman, ″Ultraviolet Absorption Determination of Intermolecular Predissoci-

Special Issue: Ron Naaman Festschrift Published: October 31, 2013 22178

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ation Dynamics in (CH3I)2 and (CD3I)2” J. Phys. Chem. 92, 1204 (1988). W.P. Hess, R. Naaman and S.R. Leone, ″Nonunity I* Quantum Yield in the 193 nm Photodissociation of Methyl Iodide″ J. Phys. Chem. 91, 6085 (1987). S.P. Sapers, V. Vaida and R. Naaman, ″Multiphoton Ionization Study of Intra- And Intermolecular Effects on the Photodissociation of Methyl Iodide″ J. Chem. Phys. 88, 3638 (1988). S. Cohen, R. Naaman and J. Sagiv, ″Rotational and State Resolved Translational Energy Distribution of NO Scattered from Organized Amphiphilic Monolayers″ J. Chem. Phys. 88, 2757 (1988). R. Naaman, ″Small Clusters- Reactions of van der Waals Molecules″ Adv. Chem. Phys. 70 (2), 181 (1988), S. Rice editor. D.J. Donaldson, S. Sapers, V. Vaida and R. Naaman, ″Photodissociation of Methyl Iodide Clusters″, Large finite systems, J. Jortner, A. Pullman and B. Pullman Eds.; D. Reidel Pulication Co. (1987), p:253. H. Kovner, A. Faibis, Z. Vager and R. Naaman, ″Preparation of Molecules in a Single State for Coulomb Explosion Measurements″, In “Structure of Small Molecules and Ions”, R. Naaman and Z. Vager, Eds.; Plenum Press, pp. 113. Z. Vager, R. Naaman and E.P. Kanter, ″Structure of Molecules and Clusters as Determined by Coulomb Explosion″, In “Ion and Cluster Ion Spectroscopy”, Maier, Ed.; Elsevier Science Publ. (1988), pp 1. S.R. Cohen, R. Naaman and G.G Balint-Kurti, ″Investigation of Vibrational and Spin−Orbit State Redistribution in NO Scattered from Organized Amphiphillic Monolayers″ Chem. Phys. 134, 119 (1989). D.J. Donaldson, S.P. Sapers, V. Vaida, R. Naaman and M.S. Child, ″Spectroscopic Probe of Intramolecular Predissociation Dynamics in Clusters″ J. Phys. Chem. 93, 513 (1989). S.R. Cohen, R. Naaman and G.G Balint-Kurti, ″Energy Distribution between Spin−Orbit States in NO Scattered from Organized Amphiphillic Monolayers″ Chem. Phys. Lett. 152, 269 (1988). D.J. Nesbitt and R. Naaman, ″On the Apparent Spectroscopic Rigidity of Floppy Molecular Systems″ J. Chem. Phys. 91, 3801 (1989). A. Bar-on and R. Naaman, ″Vibrational Induced Photodetachment of Electrons from Small Clusters″ J. Chem. Phys. 90, 5198 (1989). Z. Vager, R. Naaman and E.P. Kanter, ″Stereoimaging of Small Molecules″ Science 244, 426 (1989). M. Algranati, H. Feldman, D. Kella, E. Malkin, E. Miklazky, R. Naaman, Z. Vager and J. Zajfman, ″The Structure of C4 as Studied by the Coulomb Explosion Method″. J. Chem. Phys. 90, 4617 (1989). D. Berkovits, E. Boaretto, G. Hollos, W. Kutschera, R. Naaman, M. Paul and Z. Vager, ″Selective Suppression of Negative Ions by Lasers″ Nucl. Inst. Methods A281, 663 (1989). M. Algranati, H. Feldman, D. Kella, E. Malkin, E. Miklazky, R. Naaman, Z. Vager and J. Zajfman, ″The Structure and Photochemistry of C4 As Studied by the Coulomb Explosion Method″ Isr. J. Chem. 30, 79 (1990). H. Feldman, D. Kella, E. Malkin, E. Miklazky, R. Naaman, Z. Vager and J. Zajfman, ″The Structure of

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Carbon Clusters As Studied by the Coulomb Explosion Method″ Faraday Trans. 86, 2469 (1990). Y. Paz and R. Naaman, ″Energy Distribution in Aniline Scattered from Surfaces Covered with Organized Organic Monolayers″ Chem. Phys. Lett. 172, 120 (1990). V. Vaida, D.J. Donaldson, S.P. Sapers and R. Naaman, ″Spectroscopic and Photochemical Perturbations of Weak Interactions on Electronic Surfaces of Methyl Iodide″ J. Chem. Soc., Faraday Trans. 86, 2043 (1990). Y. Paz and R. Naaman, ″Energy Distribution in Aniline Scattered from Various Low Energy Surfaces″ J. Chem. Phys. 94, 4921 (1991). D. Zajfman, Z. Vager, R. Naaman, R.E. Mitchell, E.P. Kanter, T. Graber and A. Belkachem, ″The Structure of C2H+ and C2H2+ as Measured by Coulomb Explosion Imaging″ J. Chem. Phys. 94, 6377 (1991). D. Zajfman, A. Belkachem, T. Graber, E.P. Kanter, R.E. Mitchell, R. Naaman, Z. Vager and B.J. Zabransky, ″Measurement of the Distribution of Bond Angle in H2O+″ J. Chem. Phys. 94, 2543 (1991). D. Berkovits, E. Boaretto, G. Hollos, W. Kutschera, R. Naaman, M. Paul and Z. Vager, ″Observation of HighIntensity Negative Ion Pulses by Laser Impact″ Nucl. Inst. Methods A302, 379 (1991). Z. Vager, H. Feldman, D. Kella, E. Malkin, E. Miklazky, J. Zajfman and R. Naaman, ″The Structure of Small Carbon Clusters″ Z. Phys. D 19, 413 (1991). Z. Vager, H. Feldman, D. Kella, E. Malkin, E. Miklazky, J. Zajfman and R. Naaman, ″The Structure of Small Carbon Clusters″, In press Radiation Effects and Defects in Solids (1991). Y. Rudich, S. Lifson and R. Naaman, ″The Reaction of O(3P) with Cyclohexane Clusters-Hint for the Mechanism in the Liquid Phase″ J. Am. Chem. Soc. 113, 7077 (1991). Y. Rudich, R.J. Gordon, E.E. Nikitin and R. Naaman, ″Rotational Relaxation in a Free Expansion of HCl″ J. Chem. Phys. 96, 4423 (1992). Y. Paz, M.S. de Vries, D.J. Elloway and R. Naaman, ″Vibrational Population Inversion in Aniline Following Trapping/Desorption from Fullerene Surfaces″ J. Phys. Chem. 96, 3186 (1992). Y. Paz and R. Naaman, ″Mode Specificity in Collisions of Aniline with Surfaces Covered with Organized Organic Monolayers″, In Mode Specif ic Chemistry; J. Jortner et al., Eds.; Kluwer Academic Publishers (1991), p. 429. Y. Rudich and R. Naaman, ″Energy Distribution in HCl(v = 1) Following the Vibrational Predissociation of Acetylene-HCl Complex″ J. Chem. Phys. 96, 8616 (1992). D. Zajfman, E.P. Kanter, T. Graber, Z. Vager and R. Naaman, ″Quantitative Molecular Spectroscopy Using Coulomb Explosion″ Nucl. Instr. Methods B67, 22 (1992). T. Graber, D. Zajfman, E.P. Kanter, Z. Vager, R. Naaman and B.J. Zabransky, ″A Source of Cold Molecular Ions for Coulomb Explosion Imaging″ Rev. Sci. Instrum. 3569 (1992). Y. Paz, S.Trakhtenberg and R. Naaman, ″The Destruction of Organized Organic Monolayers by Oxygen Atoms″ J. Phys. Chem. 96, 10964 (1992). D. Zajfman, H. Feldman, O. Heber, D. Kella, D. Majer, Z. Vager and R. Naaman, ″Electron Photodetachment dx.doi.org/10.1021/jp406098c | J. Phys. Chem. C 2013, 117, 22178−22185

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84. A. Kadyshevitch and R. Naaman, Comment, Phys. Rev. Lett. 75, 2904 (1995). 85. V. Vaida, G.J. Frost, L.A. Brown, R. Naaman and Y. Hurwitz, Ber. Bunsenges. Phys. Chem. 99, 371 (1995). 86. A. Kadyshevitch and R. Naaman, “The Interactions of Electrons with Organized Organic Films Studied by Photoelectron Transmission” Thin Solid Films 288, 139 (1996). 87. R. Naaman and Z. Vager, “An Electron Multiplier Capable of Working at Low Vacuum- The Microsphere Plate” Rev. Sci. Instrum. 67, 3332 (1996). 88. K. Imura, T. Kasai, H. Ohoyama, H. Takahashi and R. Naaman, “Experimental Determination of the Dipole Moment of HCl Dimer Using an Electrostatic Hexapole Field” Chem. Phys. Lett. 259, 356 (1996). 89. Y. Hurwitz, P.S. Stern, R. Naaman and A.B. McCoy, “Reactivity Induced by Complex Formation. The Reaction of O(3P) with HCl Dimers” J. Chem. Phys. 106, 2627 (1997). 90. A. Kadyshevitch and R. Naaman, “Electron Transmission through Organized Organic Films” Surf. Interface Anal. 25, 71 (1997). 91. A. Kadyshevich, R. Naaman, R. Cohen, D. Cahen, J. Libman and A. Shanzer, “Characterization of Molecular Modified Surface States by Wavelength and Time Dependent Two Photon Photoemission Spectroscopy” J. Phys. Chem. 101, 4085 (1997). 92. A. Haran, A. Kadyshevitch, H. Cohen, R. Naaman, D. Evans, T. Seidman and A. Nitzan, “Electron Transmission through Band Structure in Organized Organic Thin Films” Chem. Phys. Lett. 268, 475 (1997). 93. S. Trakhtenberg, R. Naaman, S.R. Cohen and I. Benjamin, “The Effect of the Substrate Morphology on the Structure of Adsorbed Ice” J. Phys. Chem. B. 101, 5172 (1997). 94. A. Kadyshevitch, S.P. Ananthavel and R. Naaman, “The Role of Three Dimensional Structure in Electron Transmission through Thin Organic Layers” J. Chem. Phys. 107, 1288 (1997). 95. T. Graber, E.P. Kanter, J. Levin, D. Zajfman, Z. Vager and R. Naaman, “Direct Measurement of Bending Conformations in Triatomic Dihydride Ions” Phys. Rev. A 56, 2600 (1997). 96. 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). 97. A. Kadyshevitch, S.P. Ananthavel and R. Naaman, “The Effect of Molecular Structure and of Three Dimensional Order on Electron Transmission through Thin Organic Layers” Thin Solid Films 327−329, 357 (1998). 98. 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 (18), 3307−3309 (1998). 99. 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). 100. A.B. McCoy, M.W. Lufaso, M. Veneziani, S. Atrill and R. Naaman, “Reaction of Oxygen Atoms with Van Der Waals Complexes: The Effect of Complex Formation on

Cross Sections of Small Carbon Clusters: Evidences for Non Linear Isomers″ Science 258, 1129 (1992). Y. Rudich, Y. Hurwitz, S. Lifson and R. Naaman, ″The Reaction of O(3P) with Cyclohexane Clusters″ J. Chem. Phys. 98, 2936 (1993). Y. Hurwitz, Y. Rudich, R. Naaman and R.B. Gerber, ″Effect of a Single Solvent Atom on Bimolecular Reactions: Collisions of O(3P) with Hydrocarbon− Argon Cluster″ J. Chem. Phys. 98, 2941 (1993). D. Kella, D. Zajfman, O. Heber, D. Majer, H. Feldman, Z. Vager and R. Naaman, ″Observation of Laser Excitation of Rhombic C4 Using the Coulomb Explosion Method″ Z. Phys. D 26, 340 (1993). D. Zajfman, D. Kella, O. Heber, D. Majer, H. Feldman, Z. Vager and R. Naaman, ″The Isomers of Small Carbon Clusters″ Z. Phys. D 26, 343 (1993). D. Kella, M. Algranati, H. Feldman, O. Heber, H. Kovner, E. Malkin, E. Miklazky, R. Naaman, D. Zajfman, J. Zajfman and Z. Vager, ″A System for Coulomb Explosion Imaging of Small Molecules at the Weizmann Institute″ Nucl. Instrum. Methods Phys. Res., Sect. A 329, 440 (1993). Y. Paz, S. Trakhtenberg and R. Naaman, ″Phase Transitions in Organic Thin Films As Detected by Their Reactivity″ J. Phys. Chem. 97, 9075 (1993). Y. Rudich, Y. Hurwitz, G.J. Frost, V. Vaida and R. Naaman, ″The Reactions of O(1D) with CH4 and C3H8 Monomers and Clusters″ J. Chem. Phys. 99, 4500 (1993). Y. Hurwitz, Y. Rudich and R. Naaman, ″Reactant Rotational Energy Effect on Energy Distribution of Products- The Role of the Electronic Angular Momentum″ Chem. Phys. Lett. 215, 674 (1993). Y. Rudich, Y. Hurwitz and R. Naaman, ″Reactions of Oxygen Atoms with Hydrocarbon Clusters- The Solvent Effect″, In ″Ultrafast Reaction Dynamics and Solvent Effects″; Y. Gauduel and P.J. Rossky, Eds.; American Institute of Physics, NY (1993), p 551. A. Haran, D.H. Waldeck, R. Naaman, E. Moons and D. Cahan, ″The Dependence of Electron Transfer Efficiency on the Conformational Order in Organic Monolayers″ Science 263, 948 (1994). Y. Hurwitz, Y. Rudich and R. Naaman, ″The Reaction of O(1D) with Propane and Water Monomers and Clusters″ Isr. J. Chem. 34, 59 (1994). Y. Hurwitz, Y. Rudich and R. Naaman, ″Reaction of Oxygen Atoms with Hydrocarbon Monomers and Clusters- The Power of State Selectivity″, In ″Laser Techniques for State-Selected and State-to-State Chemistry″ SPIE proceeding Jan. 1994. Y. Paz, S. Trachtenberg and R. Naaman, ″New Evidence for Surface Non Specific Catalysis- The Reaction between Organized Organic Thin Films and O(3P)″ J. Am. Chem. Soc. 116, 10344 (1994). Y. Paz, S. Trachtenberg and R. Naaman, ″The Reaction between O(3P) and Organized Organic Thin Films″ J. Phys. Chem. 98, 13517 (1994). Y. Hurwitz and R. Naaman, ″Production of OH by Dissociating Ozone-Water Complexes at 266 and 355 nm and by Reacting O(1D) with Water Dimers″ J. Chem. Phys. 102, 1941 (1995). A. Kadyshevitch and R. Naaman, ″Photoelectron Transmission Through Organized Organic Thin Films″ Phys. Rev. Lett. 74, 3443 (1995). 22180

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115. D. Dimitrov, S. Trakhtenberg, R. Naaman, D.J. Smith, P.C. Samartzis and T.N. Kitsopoulos, “Momentum Dependence of Electron Transmission Through Organized Organic Thin Films” Chem. Phys. Lett. 322, 587 (2000). 116. 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. Chem., Int. Ed. 39, 4496 (2000). 117. A. Haran, D. Dimitrov, S. Trakhtenberg and R. Naaman, “Temperature Dependence of Electron Transmission through Organized Organic Thin Films” J. Chem. Phys. 113, 7571 (2000). 118. A. Samokhvalov, M. Berfeld, M. Lahav, R. Naaman and E. Rabani, “Assemblies of CdS Quantum Particles Studied by the Attenuated Low Energy Photoelectron Spectroscopy” J. Phys. Chem. B 104, 8631 (2000). 119. A. Samokhvalov and R. Naaman, “Wavelength and Time Dependent Two Photon Photoemission Spectroscopy of Dye Coated Silicon Surface” J. Phys. Chem. B 104, 11248 (2000). 120. Deng Guo Wu, David Cahen, Peter Graf, Ron Naaman, Abraham Nitzan and Dmitry Shvarts, “Direct Detection of Low Concentration NO in Physiological Solutions by a New GaAs-Based Sensor” Chem. Eur. J. 7, 1743 (2001). 121. M. Berfeld, A. Samokhvalov, R. Naaman and M. Lahav, “Photoelectron Transmission through Cascade-Like Langmuir−Blodgett Films Containing CdS Quantum Particles” Adv. Mater. 13, 584 (2001). 122. G.R. Hutchison, M.A. Ratner, T.J. Marks and R. Naaman, “Adsorption of Polar Molecules on a Molecular Surface” J. Phys. Chem. B 105, 2881 (2001). 123. Supratim Guha Ray and Ron Naaman, “The Role of the Composition of Organic Layer in Determining Its Electronic Structure” Chem. Phys. Lett. 341, 51 (2001). 124. Rachel Havdala, Lidia Landgot, Efrat Lifshitz and Ron Naaman, “Microwave Modulation of Exciton Emission in Molecular Controlled Semiconductor Resistor” J. Chem. Phys. 115, 3834−3839 (2001). 125. Itai Carmeli, Viera Skakalova, Ron Naaman and Zeev Vager, “Magnetization of Chiral Monolayers of Polypeptide-A Possible Source of Magnetism in Some Biological Membranes” Angew. Chem., Int. Ed. 41, 761−764 (2002). 126. Zeev Vager and Ron Naaman, “Surprising ElectronicMagnetic Properties of Close Packed Organized Organic Layers” Chem. Phys. 281/2−3, 305−309 (2002). 127. Dm. Shvarts, Avner Haran, Ronnie Benshafrut, David Cahen and Ron Naaman, “Monitoring Electron Redistribution in Molecules During Adsorption” Chem. Phys. Lett. 354, 305−309 (2002). 128. A. Samokhvalov, Richard W. Gurney, M. Lahav and R. Naaman, ″Electronic Properties of Hybrid Organic/ Inorganic Langmiur−Blodgett Films Containing CdS Quantum Particles″ J. Phys. Chem. B 106, 9070−9078 (2002). 129. Miron Hazani, Ron Naaman, Frank Hennrich and Manfred M. Kappes, “Confocal Fluorescence Imaging of DNA Functionalized Carbon Nanotubes” Nanolett. 3 (2), 153−155 (2003). 130. Ron Naaman and Zeev Vager, “Electron Transmission Through Organized Organic Films” Acc. Chem. Res. 36, 291 (2003).

the Internal Energy Distribution in the Products” J. Chem. Phys. 108, 9651(1998). S. Trakhtenberg and R. Naaman, “The Effect of the Structure of Ice on the Aggregation State of CoAdsorbed Formic Acid” Thin Solid Films, 327−329, 499 (1998). R. Naaman and Z. Vager, “Dipole Moment of Non-Rigid Molecular Systems- The Dipole Moment of Hydrochloric Dimers” J. Chem. Phys. 110, 359 (1999). K. Imura, T. Kasai, H. Ohyama and R. Naaman, “Focusing of DCl and HCl Dimers by an Electrostatic Hexapole Field- The Role of the Tunneling Motion” J. Chem. Phys. 110, 355 (1999). Sven Ring, Ron Naaman and Yinon Rudich, “Mass and Collision Cross Sections Determination Using a Low Vacuum Mass Spectrometer (LVMS)” Anal. Chem. 71, 648 (1999). A. Haran, R. Naaman, G. Ashkenasy, A. Shanzer, T. Quast, B. Winter and I.V. Hertel, “Electron Transmission through Organized Organic Thin Films Studied by Discrete Initial Electron Kinetics Energies” Eur. Phys. J. B 8, 445 (1999). K. Ray, S.P. Ananthavel, D.H. Waldeck and R. Naaman, “Asymmetric Scattering of Polarized Electrons by Organized Organic Films Made of Chiral Molecules” Science 283, 814 (1999). K. Imura, M. Veneziani and R. Naaman, “The Reaction of O(1D) with H2O, D2O Monomers and Clusters and the Intracomplex Reaction in N2O-X2O (X = H,D) Photoinitiated at 193 and 212.8 nm” J. Chem. Phys. 111, 4025 (1999). A.B. McCoy and R. Naaman, “Reaction of Oxygen Atoms with Van Der Waals Molecules in Crossed Molecular Beams” Int. Rev. Phys. Chem. 18, 459 (1999). A. Giardini Guidoni, A. Paladini, M. Veneziani, R. Naaman and T.M. Di Palma, “Laser Excited Charge Transfer Processes in Oxygen Organic Molecules Mixtures: O(3P) Formation” Appl. Surf. Sci. 154−155, 186 (2000). K, Ray, A. Shanzer, D.H. Waldeck and R. Naaman, “Resonances in Low-Energy Electron Transmission through Organized Organic Films: Evidence for Molecular Quantum Wells” Phys. Rev. B 60, 13347 (1999). K. Imura, M. Veneziani and T. Kasai, “Photodissociation of Water Clusters”, In “Advances in Atomic & Molecular Beams”, R. Campargue, Ed.; Springer Verlag, Berlin (2000). A. Haran, H. Cohen and R. Naaman, “Electron Transmission through Organized Organic Thin FilmsThe Effect of Their Structure on the Electronic Band” Superlattices Microstruct. 28, 279 (2000). Y. Rudich, I. Benjamin, R. Naaman, E. Thomas, S. Trachtenberg and Ussyshkin, “Wetting of Hydrophobic Organic Surfaces and Its Implication to Organic Aerosols in the Atmosphere” J. Phys. Chem. A 104, 5238 (2000). K. Imura, H. Ohoyama, R. Naaman, D.-C. Che, M. Hashinokuchi and T. Kasai, “Tunneling Motion in (HCl)2 Hydrogen-Bonded Dimer Probed by Electrostatic Hexapole and Doppler-Selected TOF Measurement for the Internal Energy Distribution of ClHCl” J. Mol. Struct. 552, 137 (2000). 22181

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131. Itai Carmeli, V. Skakalova, R. Naaman and Z. Vager, “Surprising Electro-Magnetic Properties of Closed Packed Organized Organic Layers- Magnetization of Chiral Monolayers of Polypeptide”, In “Biophysical chemistry, Membranes and Proteins” R.H. Templer and R. Leatherbarrow, Eds.; RSC, Cambridge (2002). 132. A. Samokhvalov, R.W. Gurney, M. Lahav, S. Cohen, H. Cohen and R. Naaman, “Charge Transfer Between a Gold Substrate and CdS Nano Particles Assembled in Hybrid Organic-Inorganic Films” J. Phys. Chem. B 107, 4245−4252 (2003). 133. I. Carmeli, G. Leitus, R. Naaman, S. Reich and Z. Vager, “Magnetism Induced by the Organization of SelfAssembled Monolayers” J. Chem. Phys. 118,10372− 10375 (2003). 134. Itai Carmeli, Ziv Gefen, Zeev Vager and Ron Naaman, “Alternation between Modes of Electron Transmission through Organized Organic Layers” Phys. Rev. B 68, 115418 (2003). 135. Reit Artzi, Shirley S. Daube, Hagai Cohen and Ron Naaman, “Adsorption of Organic Phosphate as a Means to Bind Biological Molecules to GaAs Surfaces” Langmuir 19, 7392−7398 (2003). 136. I. Carmeli, G. Leitus, R. Naaman, S. Reich and Z. Vager, “New Electronic and Magnetic Properties of Monolayers of Thiols on Gold” Isr. J. Chem. 43, 399−405 (2003). 137. 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 Commun. 17, 707−711 (2003). 138. Z. Vager, I. Carmeli, G. Leitus, S. Reich and R. Naaman, “Surprising Electronic-Magnetic Properties of Closed Packed Organized Organic Layers” J. Phys. Chem. Solids 65, 713 (2004). 139. T. Aqua, R. Naaman and S. Daube, “Controlling the Adsorption and Reactivity of DNA on Gold” Langmuir 19, 10573−10580 (2003). 140. V.S. Lvov, R. Naaman, Z. Vager and V. Tiberkevich, “Cooperative Effect in Electron Transfer between Metal Substrate and Organized Organic Layer” Chem. Phys. Lett. 381 (5−6) 650−653 (2003). 141. T.C. Kreutz, E.G. Gwinn, R. Artzi, R. Naaman, H. Pizem and C.N. Sukenik, “Modification of Ferromagnetism in Semiconductors by Molecular Monolayers” Appl. Phys. Lett. 83, 4211 (2003). 142. Zeev Vager and Ron Naaman, “Bosons as the Origin for Giant Magnetic Properties of Organic Monolayers”, Phys. Rev. Lett. 9 (8), 087205 (2004). 143. I. Carmeli, V. Skakalova, Z. Vager and R. Naaman, “Electric-Magnetic Properties of Monolayers of Chiral Bio-organic Molecules”, Proceedings of the International Winterschool on Electronic Properties of Novel Materials, Kirchberg, Tirol, March 2−9, 2002; H. Kuzmany, J. Fink, M. Mehring, S. Roth, Eds; World Scientific, Singapore (2002). 144. A.M. Botelho do Rego, A.M. Ferraria, M. Rei Vilar, J. El Beghdadi and R. Naaman “Molecular Adsorption on GaAs Studied by HREELS” Solid State Phenom. 99−100, 247−250 (2004). 145. Miron Hazani, Frank Hennrich, Manfred Kappes, Ron Naaman, Dana Peled, Victor Sidorov and Dmitry Shvarts, “DNA Mediated Self Assembly of Carbon

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Nanotube Based Electronic Devices” Chem. Phys. Lett. 391, 389−392 (2004). Claude Nogues, Sidney R. Cohen, Shirley S. Daube and Ron Naaman, “Electrical Properties of Short DNA Oligomers Characterized by Conducting Atomic Force Microscopy”, PCCP 6, 4459−4466 (2004). Ron Naaman, “Photoelectrons Spectroscopy of Organized Organic Thin Films” In “Spectroscopy of Emerging Materials”, E.C. Faulques, D.L. Perry, A.V. Yeremenko, Eds.; Nato Science Series II, Kulwer Academic Publishers (2004), Vol. 165, p 69. Miron Hazani, Dmitry Shvarts, Dana Peled, Victor Sidorov and Ron Naaman, “Self-Assembled CarbonNanotubes-Based Field-Effect Transistors” Appl. Phys. Lett. 85, 5025−5027 (2004). S.G. Ray, S. S. Daube and R. Naaman, “On the Capturing of Low-Energy Electrons by DNA” PNAS 102, 15−19 (2005). Sharon Ruthstein, Reit Artzi, Daniella Goldfarb and Ron Naaman, “EPR Studies on the Organization of SelfAssembled Spin-Labeled Organic Monolayers Adsorbed on GaAs” Phys. Chem. Chem. Phys. 7, 524−529 (2005). M. Rei Vilar, J. El Beghdadi, F. Debontridder, R. Artzi, R. Naaman, A. M. Ferraria and A.M. Botelho do Rego, ″Characterization of Wet-Etched GaAs (100) Surfaces″ Surf. Interface Anal. 37, 673−682 (2005). Miron Hazani, Dmitry Shvarts, Dana Peled, Victor Sidorov and Ron Naaman, ″Self-Assembled Electrical Circuits and Their Electronic Properties″ Faraday Discuss. 131, 325−335 (2006). 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, 14064−14073 (2005). A.M. Botelho do Rego, A.M. Ferraria, J. El Beghdadi, F. Debontridder, P. Brogueira, R. Naaman and M. Rei Vilar, “Adsorption of Phenylphosphonic Acid on GaAs (100) Surfaces” Langmuir 21, 8765−8773 (2005). Hezy Cohen, Claude Nogues, Ron Naaman and Danny Porath, ″Direct Measurement of Electrical Transport Through Single DNA Molecules of Complex Sequence″ PNAS 102, 11589−11593 (2005). Hezy Cohen, Claude Nogues, Daniela Ullien, Shirley Daube, Ron Naaman and Danny Porath, ″Electrical Characterization of Self-Assembled Single- And DoubleStranded DNA Monolayers Using Conductive AFM″ Faraday Discuss. 131, 367−376 (2006). David Cahen, Ron Naaman and Zeev Vager, ″Cooperative Molecular Field Effect″ Adv. Funct. Mater. 15, 1571−1578 (2005). M. Rei Vilar, J. El Beghdadi, F. Debontridder, R. Naaman, A. Arbel, A. M. Ferraria and A.M. Botelho do Rego, ″Development of Nitric Oxide Sensor for Asthma Attack Prevention″ Mater. Sci. Eng. C 26, 253−259 (2006). Dm. Shvarts, M. Hazani, B. Ya. Shapiro, G. Leitus, V. Sidorov and R. Naaman, ″Molecular Induced Field Effect in Superconducting Nb Films″ Europhys. Lett. 72, 465− 471 (2005). 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 dx.doi.org/10.1021/jp406098c | J. Phys. Chem. C 2013, 117, 22178−22185

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a GaAs Field Effect Transistor″ IEEE Sens. J. 6, 1195 (2006). J. J. Wei, C. Schafmeister, G. Bird, A. Paul, R. Naaman and D. H. Waldeck, ″Molecular Chirality and Charge Transfer through Self-Assembled Scaffold Monolayers″ J. Phys. Chem. B 110, 1301−1308 (2006). Michael-Rock Goldsmith, Christopher B. George, Gerard Zuber, Ron Naaman, David H. Waldeck, Peter Wipf and David N. Beratan, ″The Chiroptical Signature of Achiral Metal Clusters induced by Dissymmetric Adsorbates″ PCCP 8, 63−67 (2006). Supratim Guha Ray, Hagai Cohen, Ron Naaman and Yitzhak Rabin, ″Where is the Sodium in Self-Assembled Monolayers of Single Stranded DNA?″ J. Am. Chem. Soc. 127, 17138−9 (2005). S.G. Ray, S.S. Daube, G. Leitus, Z. Vager and R. Naaman, ″Chirality-Induced Spin-Selective Properties of SelfAssembled Monolayers of DNA on Gold″ Phys. Rev. Lett. 96, 036101 (2006). R. Naaman and Z. Vager, ″New Electronic and Magnetic Properties Emerging from Adsorption of Organized Organic Layers″ PCCP 8, 2217−2224 (2006) invited review. Ora Neuman and Ron Naaman, ″New Optical Absorption Band Resulting From the Organization of Self-Assembled Monolayers of Organic Thiols on Gold″ J. Phys. Chem. B 110, 5163−5165 (2006). C. Nogues, S. R. Cohen, S. Daube, N. Apter and R. Naaman, ″Sequence Dependence of Charge Transport Properties of DNA″ J. Phys. Chem. B 110 (18), 8910− 8913 (2006). I. Carmeli, F. Bloom, E.G. Gwinn, T.C. Kreutz, Cheyne Scoby, A.C. Gossard, S.G. Ray and R. Naaman, ″Molecular Enhancement of Ferromagnetism in GaAs/ GaMnAs Heterostructures″ Appl. Phys. Lett. 89, 112508 (2006). Y. Paltiel, A. Haroni, U. Banin, O. Neuman and 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). Gregory Kopnov, Zeev Vager and Ron Naaman, ″New Magnetic Properties of Silicon−Silicon Oxide Interfaces″ Adv. Mater. 19, 925−928 (2007). R. Kaufmann, I. Averbukh, R. Naaman and S.S. Daube, ″Controlling the Reactivity of Adsorbed DNA on Template Surfaces″ Langmuir 24, 927−931 (2008). S.G. Ray, S. S. Daube, H. Cohen and R. Naaman, ″Electrons Capturing by DNA″ Isr. J. Chem. 47, 149−159 (2007). Miron Hazani, Dmitry Shvarts, Dana Peled, Victor Sidorov and Ron Naaman, ″Self-Assembled Electrical Circuits and Their Electronic Properties″ Faraday Discuss. 134, 335 (2006). Ron Naaman and Leon Sanche, ″Low Energy Electron Transmission Through Thin-Film Molecular and Biomolecular Solids″ Chem. Rev. 107, 1553−1579 (2007). Despina Fragouli and Theofanis N. Kitsopoulos, Letizia Chiodo, Fabio Della Sala and Roberto Cingolani, Supratim G. Ray and Ron Naaman, ″Imaging Photoelectron Transmission through Self Assembled Monolayers: The Work Function of Alkanethiols Coated Gold″ Langmuir 23, 6156−6162 (2007).

178. Hanna Behar-Levy, Oara Neumann, Ron Naaman and David Avnir, ″Chirality Induction in Bulk Gold and Silver″ Adv. Mater. 19, 1207−1211 (2007). 179. Tali Aqua, Hagai Cohen, Ayelet Vilan and Ron Naaman, ″Long Range Substrate Effects on the Stability and Reactivity of Thiolated Self-Assembled Monolayers″ J. Phys. Chem. C 111, 16313−16318 (2007). 180. Z. Fradkin, D. Oron and R. Naaman, ″The Effect of SelfAssembled Monolayers on Polarization-Dependent TwoPhoton Photoemission and on the Angular Distribution of the Photoelectrons″ J. Chem. Phys. 127, 121102 (2007). 181. Ron Naaman, Miron Hazani and Dmitry Shvarts, ″SelfAssembled Biomolecular Electronic Devices″ In “BottomUp Nanofabrication”, Katsuhiko Ariga and Hari Singh Nalwa, Eds.; American Scientific Publishers (2007), Ch. 120, p 1−11. 182. Bat Ami Gotliv, Shirley S. Daube and Ron Naaman, ″Enhancement of Reaction Specificity at Interfaces″, J. Phys. Chem. B 112, 3948−3954 (2008). 183. Alexander Zakrassov, Gregory Leitus, Sidney Cohen and Ron Naaman, ″Adsorption Induced Magnetization of PbS Self-Assembled Nanoparticles on GaAs″ Adv. Mater. 20, 2552−2555 (2008). 184. Adam Winkleman, Gilad Gotesman, Alexander Yoffe and Ron Naaman, ″Immobilizing a Drop of Water Fabricating Highly Hydrophobic Surfaces that Pin Water Droplets″ Nano Lett. 8, 1241−1245 (2008). 185. M. Rei Vilar, A. M. Botelho do Rego, A. M. Ferraria, Y. Jugnet, C. Noguès, D.Pele and R. Naaman, ″Interaction of Self-Assembled Monolayers of DNA with Electrons: HREEL and XPS Studies″ J. Phys. Chem. B 112, 6957− 6964 (2008). 186. Gilad Gotesman and Ron Naaman, ″Selective Surface Patterning for Coadsorption of Self-Assembled Gold and Semiconductor Nanoparticles″ Langmuir 24, 5981−5983 (2008). 187. T. Aqua, R. Naaman, A. Aharoni, U. Banin and Y. Paltiel, ″Hybrid Nanocrystals-Organic-Semiconductor Light Sensor″ Appl. Phys. Lett. 92, 223112 (2008). 188. Gilad Diamant, Erez Halahmi, Leeor Kronik, Jeff Levy, Ron Naaman and John Roulston, “Integrated Circuits Based on Nano-Scale Vacuum Phototubes” Appl. Phys. Lett. 92, 262903 (2008). 189. Dana Peled, Shirley S. Daube and R. Naaman, ″A Selective Enzymatic Labeling to Detect Packing-Induced Denaturation of Double-Stranded DNA at Interfaces″ Langmuir 24, 11842−11846 (2008). 190. Patrick J. Grace, M. Venkatesan, J. Alaria, J.M.D. Coey, G. Kopnov and R. Naaman, “The Origin of the Magnetism of Etched Silicon” Adv. Mater. 21, 71−74 (2009). 191. Amos Bardea and Ron Naaman “Magneto Lithographyfrom Bottom-Up Route to High Throughput” Small 5, 316−319 (2009). 192. Spiros S. Skourtis, David N. Beratan, Ron Naaman, Abraham Nitzan and David H. Waldeck, “Chiral Control of Electron Transmission through Molecules” Phys. Rev. Lett. 101, 238103 (2008). 193. Tal Z. Markus, Shirley S. Daube, Ron Naaman, Aaron M. Fleming, James G. Muller and Cynthia J. Burrows, “The Electronic Structure of DNA - The Unique Properties of 22183

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208. Ron Naaman and Zeev Vager “Cooperative Electronic and Magnetic Properties of Self-Assembled Monolayers” MRS Bull. 35, 429 June first (2010). 209. Dana Peled, Ron Naaman and Shirley S. Daube “Packed DNA Denatures on Gold Nanoparticles” J. Phys. Chem. B 114 (25), 8581−8584 (2010). 210. Tal Markus, Shirley Daube and Ron Naaman, ″Cooperative Effect in the Electronic Properties of Human Telomere Sequence” J. Phys. Chem. B 114 (43), 13897− 13903 (2010). 211. Amos Bardea and Ron Naaman, “Magnetolithography: From the Bottom-Up Route to High Throughput” Adv. Imaging Electron Phys. 164, (2010). 212. B. Göhler, V. Hamelbeck, T.Z. Markus, M. Kettner, G.F. Hanne, Z. Vager, R. Naaman, and H. Zacharias, “Spin Selectivity in Electron Transmission Through SelfAssembled Monolayers of dsDNA” Science 331, 894− 897 (2011). 213. Zuoti Xie, Tal Z. Markus, Gilad Gotesman, Zvicka Deutsch, Dan Oron and Ron Naaman, “How Isolated Are the Electronic States of the Core in Core/Shell Nanoparticles?” ACS Nano 5, 863−869 (2011). 214. R. Naaman, D. Beratan and D. Waldeck, editors, “Electronic and Magnetic Properties of Chiral Molecules and Supramolecular Architectures” Topics in Current Chemistry 298, Springer-Verlag Berlin Heidelberg, 2011. 215. R. Naaman, “Molecular Controlled Nanodevices” Phys. Chem. Chem. Phys. 13, 3153 (2011). 216. Tal Z. Markus, Stella Itzhakov, Yafit Itzhaik Alkotzer, David Cahen, Gary Hodes, Dan Oron and Ron Naaman, “The Energetics of CdSe Quantum Dots Adsorbed on TiO2” J. Phys. Chem. C 115 (27), 13236−13241 (2011). 217. Zouti Xie, Tal Z. Markus, Sidney R. Cohen, Zeev Vager, Rafael Gutierrez and Ron Naaman, “Spin Specific Electron Conduction Through DNA Oligomers” Nano Lett. 11, 4652−4655 (2011). 218. A. Bardea, N. Burshtein, Y. Rudich, T. Salame, C. Ziv, O. Yarden and R. Naaman, ″Sensitive Detection and Identification of DNA and RNA Using a Patterned Capillary Tube (PCT)″ Anal. Chem. 83, 9418−9423 (2011). 219. T. Aqua, H. Cohen, O. Sinai, V. Frydman, T. Bendikov, D. Krepel, O. Hod, L. Kronik and R. Naaman ″Role of Backbone Charge Rearrangement in the Bond-Dipole and Work Function of Molecular Monolayers″ J. Phys. Chem. C 115, 24888−24892 (2011). 220. D. Bavli, M. Tkachev, H. Piwonski, E. Capua, I. de Albuquerque, D. Bensimon, G. Haran and R. Naaman, “Detection and Quantification through a Lipid Membrane Using the Molecular Controlled Semiconductor Resistor” Langmuir 28, 1020−1028 (2012). 221. Eran Katzir, Shira Yochelis, Nadav Katz, Yaov Kalcheim, Oded Millo, Gregory Leitus, Yuri Myasodeyov, Boris Ya. Shapiro, Ron Naaman and Yossi Paltiel, “Increased Critical Temperature in Hybrid Organic−Inorganic Superconducting Systems” Phys. Rev. Lett. 108, 107004 (2012). 222. R. Gutierrez, E. Diaz, R. Naaman and G. Cuniberti, “Spin Selective Transport through Helical Molecular Systems” Phys. Rev. B 85, 081404(R) (2012). 223. R. Naaman and D.H. Waldeck, “The Chiral Induced Spin Selectivity Effect” J. Phys. Chem. Lett. (feature) 3, 2178− 2187 (2012).

8-Oxoguanosine” J. Am. Chem. Soc. 131 (1), 89−95 (2009). Ben Golan, Zeev Fradkin, Gregory Kopnov, Dan Oron and Ron Naaman, “Controlling Two-Photon Photoemission Using Polarization Pulse Shaping” J. Chem. Phys. 130, 064705 (2009). Gilad Gotesman, David H. Waldeck and Ron Naaman, “Self-Assembly of Nanoparticle Arrays on Semiconductor Substrate for Charge Transfer Cascade” J. Phys. Chem. A 113, 7213−7217 (2009). L. Durán Pachón, I. Yosef, T.Z. Markus, R. Naaman, D. Avni and and G. Rothenberg, “Chiral Imprinting of Palladium with Cinchona Alkaloids” Nat. Chem. 1, 160− 164 (2009). Amos Bardea and Ron Naaman, “Submicrometer Chemical Patterning with High Throughput Using Magnetolithography” Langmuir 25, 5451−5454 (2009). Eyal Capua, Roberto Cao, Chaim N. Sukenik and Ron Naaman, “Detection of Triacetone Triperoxide (TATP) with an Array of Sensors Based on Non-Specific Interactions″ Sens. Actuators, B: Chem. 140, 122−127 (2009). T. Z. Markus, M. Wu, L. Wang, D. H. Waldeck, D. Oron and R. Naaman, “The Electronic Structure of CdSe Nanoparticles Adsorbed on Au Electrodes by an Organic Linker: Fermi Level Pinning of the HOMO” J. Phys. Chem. C 113, 14200−14206 (2009) . Alexander Zakrassov, Arkady Bitler, Lioz Etgar, Gregory Leitus, Efrat Lifshitz and Ron Naaman, “Controlling the Anisotropic Magnetic Dipolar Interactions of PbSe SelfAssembled Nanoparticles on GaAs” PCCP 11, 7549− 7552 (2009). R. Kaufman, D. Peled, R. Naaman and S.S. Daube, “Three Dimensional Surface Patterning by DNA Modifying Enzymes” ACS Appl. Mater. Interfaces 1 (10), 2320−2324 (2009). Eyal Capua, Amir Natan, Leeor Kronik and Ron Naaman, ”The Molecularly Controlled Semiconductor Resistor: How Does It Work?” ACS Appl. Mater. Interfaces 1, 2679−2683 (2009). Y. Paltiel, G. Jung, T. Aqua, D. Mocatta, U. Banin and R. Naaman, “Collective Effects in Charge Transfer within a Hybrid Organic−Inorganic System” Phys. Rev. Lett. 104, 016804 (2010). Amos Bardea, Aviad Baram, Anand Tatikonda and Ron Naaman, ″Magnetolithographic Patterning of Inner Walls of a Tube: A New Dimension in Micro Fluidics and Sequential Microreactors″ J. Am. Chem. Soc. 131, 18260−18262 (2009). G. Kopnov, V. Y. Umansky, H. Cohen, D. Shahar and R. Naaman, “The Effect of the Surface on the Electronic Properties of Two-Dimensional Electron Gas As Measured by the Quantum Hall Effect” Phys. Rev. B 81, 045316 (2010). Gilad Gotesman and Ron Naaman, ″Temperature Dependent Coupling in Hybrid Structures of Nanoparticle Layers linked by Organic Molecules″ J. Phys. Chem. Lett. 1, 594−598 (2010). Anand Tatikonda, Amos Bardea, Yechiel Shai, Alexander Yoffe and Ron Naaman, ″Patterning Gradient Properties from Submicrometers to Millimeters by Magnetolithography″ Nano Lett. 10 (6), 2262−2267 (2010). 22184

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12. R. Naaman, E. Capua and R. Cao, “Detector For Peroxide-Based Explosives″, US 8415 166 B2 (Apr. Nine 2013). 13. R. Naaman and Erez Halahmi, “Electronic switching Device”, US patent US 7,646,149B2 (2010). 14. Ron Naaman, Ben Golan, Zeev Fradkin, Adam Winkleman and Dan Oron, ″Method for Fabricating Nano-Scale Patterned Surfaces” US Patent No. 8,288,945 (2012).

224. Yang Wang, Zuoti Xie, Gilad Gotesman, Lei Wang, Brian Bloom, Tal Markus, Dan Oron, Ron Naaman and David Waldeck, “Determination of the Electronic Energetics of CdTe Nanoparticle Assemblies on Au Electrodes by Photoemission, Electrochemical, and Photocurrent Studies” J. Phys. Chem. C 116, 17464−17472 (2012). 225. Gilad Gotesman, Rahamim Guliamov and Ron Naaman, “Horizontal versus Vertical Charge and Energy Transfer in Hybrid Assemblies of Semiconductor Nanoparticles” Beilstein J. Nanotechnol. 3, 629−636 (2012). 226. Karuppannan Senthil Kumar and R. Naaman, “Quantitative Analysis and Characterization of Self-Assembled DNA on a Silver Surface″ Langmuir 28, 14514−14517 (2012). 227. Tatikonda Anand Kumar, Maria Tkachev and Ron Naaman, “A Highly Sensitive Hybrid Organic-Inorganic Sensor for Continuous Monitoring of Hemoglobin” Biosens. Bioelectron. 45, 201−205 (2013). 228. Richard A. Rosenberg, Joshua M. Symonds, Vijayalakshmi Kalyanaraman, Tal Markus, Nir Elyahu, Thomas M. Orlando, Ron Naaman, Ernesto A. Medina, Floralba A. López and Vladimiro Mujica, “Kinetic Energy Dependence of Spin Filtering of Electrons Transmitted through Organized Layers of DNA” J. Phys. Chem. C (2013); DOI: 10.1021/jp402387y. 229. Sivan Kober, Gilad Gotesman and Ron Naaman, “Surprising Molecular Length Dependence in Conduction through a Hybrid Organic−Inorganic System” J. Phys. Chem. Lett. 4, 2041−2045 (2013).

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PATENTS

1. R. Naaman and Z. Vager, ″Amorphous electron multiplier″, Israeli patent number 87341 (1992). 2. V. Shenkar, R. Naaman and Z. Vager, ″Flat panel display″, Israeli patent number 95736 (1994). 3. V. Shenkar, R. Naaman and Z. Vager, ″Flat panel display″, European patent EP 0 476 975 B1 (1996). 4. R. Naaman and Z. Vager, “Spectrometer for low vacuum”, Israeli patent number 115984 (1998). US patent 5939613 (1999), European Patent No. 0888633 granted on 5/7/2000. 5. D. Cahen, K. Gartsman, A. Kadyshevitch, R. Naaman and A. Shanzer, “Hybrid organic-inorganic semiconductor structures and sensors based thereon”, US patent 6,433,356 (2002). European Patent No. 0935748 6. Ron Naaman and Zeev Vager “Near field optical inspection apparatus”, US patent 6,507,017 (2002). 7. Ron Naaman and Erez Halahmi ″ DISPLAY DEVICE″ WO 2005/008715 A2. 8. Ron Naaman and Erez Halahmi, ″ELECTRON EMISSION DEVICE″ WO 2005/008711 A2. 9. Ron Naaman, Reit Artzi and David Cahen, ″DNA sensor based on molecular controlled semiconductor resistor″ US Patent No. 7,118,861 (2006). 10. Ron Naaman, Itai Carmeli, Zeev Vager and Gregory Leitus, “NANOSCOPIC Structure And Devices Using The Same″, WO 2004/076344 European Patent (2008). 11. G. Diamant, D. Shvarts, E. Halahmi, R. Naaman and L. Kronik, Electronic Device and Method for Performing Logic Function, USA Patent #: 7,545,179 B2 (2009). 22185

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