Naaman, Ron - Weizmann Institute of Science - Department of Chemical and Biological Physics

个人简介

A. Academic Background 1973-1977: Graduate student at the Ben Gurion University at Beer-Sheva, Israel, and at the Weizmann Institute, Rehovot, Israel. 1970-1973: Undergraduate at the Ben Gurion University, Beer-Sheva,Israel. B. Previous Employment 1992-present: Full Professor, Department of Chemical Physics, The Weizmann Institute of Science. Sep. 2001-Dec. 2001: Visiting Fellow, Institute of Theoretical Physics, University of California Santa Barbara, USA. 1994-1999: Chairman, Department of Chemical Physics, Weizmann Institute. 1996 Visiting Professor University of Pittsburgh 1990-1994: Head Chemical Services, Weizmann Institute 1986-1992: Associate Professor, Department of Chemical Physics The Weizmann Institute of Science. Nov. 1986-Oct. 1987: Visiting Fellow, JILA University of Colorado, Boulder, Co.USA. Sept. 1980-1986: Senior Researcher, Department of Isotope Research, The Weizmann Institute of Science. 1979-1980: Lecturer and research associate, Department of Chemistry,Harvard University 1977-1979: Postdoctoral Fellow, Stanford University, Stanford, Ca. USA. Fellow of the American Physical Society 2007- Recipient of the "Lectureship Award of the Division of Colloid and Surface Chemistry" authorized by The Chemical Society of Japan. 2008-2011 Member of the advisory board of the Journal of Physical Chemistry. 2010 Lectureship of the Chemical Society, Taiwan. 2011 Erasmus Mundus research scholar at TU Dresden 2011- Member of the editorial board of Beilstein Journal of Nanotechnology. 2011-Member of the advisory board of PCCP. 2013-Reciepient of an ERC-Adv grant 2014-Recipient of the Kolthof award from the Technion Israel.

研究领域

Our group is investigating the new electronic properties that emerge when organic molecules are interacting among themselves or interacting with an inorganic substrate. The work combines research into the basic principles that are the origin for these properties and applications that result from them. We established that the organization of self-assembled monolayers on a semiconductor substrate induces charge transfer, which is not the property of the single adsorbed molecule but is a result of a cooperative effect due to the monolayer formation. This charge transfer process affects the electronic properties of the substrate and may induce variations in conductivity, magnetic properties, or superconductive properties.

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Chirality-induced avalanche magnetization of magnetite by an RNA precursor Ozturk S. F., Bhowmick D. K., Kapon Y., Sang Y., Kumar A., Paltiel Y., Naaman R. & Sasselov D. D. (2023) Nature Communications. 14, 6351. Does Coherence Affect the Multielectron Oxygen Reduction Reaction? Gupta A., Kumar A., Bhowmick D. K., Fontanesi C., Paltiel Y., Fransson J. & Naaman R. (2023) The journal of physical chemistry letters. 14, 42, p. 9377-9384 Spin-induced electron transmission through metal-organic chiral crystals Kumar Das T., Mondal A. K., Tiwari O. S., Makam P., Leitus G., Gazit E., Claudio F. & Naaman R. (2023) Physical Chemistry Chemical Physics. 25, 33, p. 22124-22129 Chirality-Induced Spin Selectivity: An Enabling Technology for Quantum Applications Chiesa A., Privitera A., Macaluso E., Mannini M., Bittl R., Naaman R., Wasielewski M. R., Sessoli R. & Carretta S. (2023) Advanced Materials. 2300472. Easily processable spin filters: exploring the chiral induced spin selectivity of bowl-shaped chiral subphthalocyanines Labella J., Bhowmick D. K., Kumar A., Naaman R. & Torres T. (2023) Chemical Science. Spin Selectivity Damage Dependence of Adsorption of dsDNA on Ferromagnets Santra K., Lu Y., Waldeck D. H. & Naaman R. (2023) The journal of physical chemistry. B. 127, 11, p. 2344-2350 Spin polarization through axially chiral linkers: Length dependence and correlation with the dissymmetry factor Amsallem D., Kumar A., Naaman R. & Gidron O. (2023) Chirality (New York, N.Y.). Effect of Anesthesia Gases on the Oxygen Reduction Reaction Gupta A., Sang Y., Fontanesi C., Turin L. & Naaman R. (2023) The journal of physical chemistry letters. 14, 7, p. 1756-1761 Electron Spin Polarization and Rectification Driven by Chiral Perylene Diimide-Based Nanodonuts Ko C. H., Zhu Q., Bullard G., Tassinari F., Morisue M., Naaman R. & Therien M. J. (2023) Journal of Physical Chemistry Letters. p. 10271-10277 Foreword Tassinari F. & Naaman R. (2022) Israel Journal of Chemistry. 62, 11-12, e202200111. New Perspective on Electron Transfer through Molecules Naaman R., Waldeck D. H. & Fransson J. (2022) The journal of physical chemistry letters. 13, 50, p. 11753-11759 Control of protein activity by photoinduced spin polarized charge reorganization Ghosh S., Ghosh K. B., Levy D., Scheerer D., Riven I., Shin J., Gray H. B., Naaman R. & Haran G. (2022) Proceedings of the National Academy of Sciences. 119, 35, p. 1-6 e220473511. Spin-induced asymmetry reaction-The formation of asymmetric carbon by electropolymerization Bhowmick D. K., Das T. K., Santra K., Mondal A. K., Tassinari F., Schwarz R., Diesendruck C. E. & Naaman R. (2022) Science advances. 8, 32, eabq2727. Chirality enhances oxygen reduction Sang Y., Tassinari F., Santra K., Zhang W., Fontanesi C., Bloom B. P., Waldeck D. H., Fransson J. & Naaman R. (2022) Proceedings of the National Academy of Sciences of the United States of America. 119, 30, e220265011. Chiral Induced Spin Selectivity and Its Implications for Biological Functions Naaman R., Paltiel Y. & Waldeck D. H. (2022) Annual Review of Biophysics. 51, 1, p. 99-114 Twisted molecular wires polarize spin currents at room temperature Ko C., Zhu Q., Tassinari F., Bullard G., Zhang P., Beratan D. N., Naaman R. & Therien M. J. (2022) Proceedings of the National Academy of Sciences - PNAS. 119, 6, e211618011. Temperature-Dependent Chiral-Induced Spin Selectivity Effect: Experiments and Theory: Experiments and theory Das T. K., Tassinari F., Naaman R. & Fransson J. (2022) Journal of physical chemistry. C.. 126, 6, p. 3257-3264 Metal Organic Spin Transistor Goren N., Das T. K., Brown N., Gilead S., Yochelis S., Gazit E., Naaman R. & Paltiel Y. (2021) Nano Letters. 21, 20, p. 8657-8663 A Method for Separating Chiral Enantiomers by Enantiospecific Interaction with Ferromagnetic Substrates Santra K., Bhowmick D., Zhu Q., Bendikov T. & Naaman R. (2021) Journal of Physical Chemistry C. 125, 31, p. 17530-17536 Simultaneous High-Purity Enantiomeric Resolution of Conglomerates Using Magnetic Substrates Bhowmick D., Sang Y., Santra K., Halbauer M., Capua E., Paltiel Y., Naaman R. & Tassinari F. (2021) Crystal Growth & Design. 21, 5, p. 2925-2931 Spin Filtering in Supramolecular Polymers Assembled from Achiral Monomers Mediated by Chiral Solvents Mondal A. K., Preuss M. D., Ślęczkowski M. L., Das T. K., Vantomme G., Meijer E. W. & Naaman R. (2021) Journal of the American Chemical Society. 143, 18, p. 7189-7195 The spin selectivity effect in chiral materials Waldeck D. H., Naaman R. & Paltiel Y. (2021) APL Materials. 9, 4, 040902. Chiral spintronics Yang S., Naaman R., Paltiel Y. & Parkin S. S. P. (2021) Nature Reviews Physics. 3, 5, p. 328-343 Substrates Modulate Charge-Reorganization Allosteric Effects in Protein-Protein Association Ghosh S., Banerjee-ghosh K., Levy D., Riven I., Naaman R. & Haran G. (2021) Journal of Physical Chemistry Letters. 12, 11, p. 2805-2808 Spin-selective electron transmission through self-assembled monolayers of double-stranded peptide nucleic acid Möllers P. V., Ulku S., Jayarathna D., Tassinari F., Nürenberg D., Naaman R., Achim C. & Zacharias H. (2021) Chirality. 2, p. 93-102 Helicity Control in the Aggregation of Achiral Squaraine Dyes in Solution and Thin Films Rösch A. T., Zhu Q., Robben J., Tassinari F., Meskers S. C., Naaman R., Palmans A. R. & Meijer E. W. (2021) Chemistry - A European Journal. 27, 1, p. 298-306 Long-Range Charge Reorganization as an Allosteric Control Signal in Proteins Banerjee-Ghosh K., Ghosh S., Mazal H., Riven I., Haran G. & Naaman R. (2020) Journal of the American Chemical Society. 142, 48, p. 20456-20462 Optical Multilevel Spin Bit Device Using Chiral Quantum Dots Al-Bustami H., Bloom B. P., Ziv A., Goldring S., Yochelis S., Naaman R., Waldeck D. H. & Paltiel Y. (2020) Nano Letters. 20, 12, p. 8675-8681 Chiral Induced Spin Selectivity Gives a New Twist on Spin-Control in Chemistry Naaman R., Paltiel Y. & Waldeck D. H. (2020) Accounts of Chemical Research. 11, p. 2659-2667 Spin-dependent Enantioselective Electropolymerization Tassinari F., Amsallem D., Bloom B. P., Lu Y., Bedi A., Waldeck D. H., Gidron O. & Naaman R. (2020) Journal of Physical Chemistry C. 124, 38, p. 20974-20980 Spin Filtering Along Chiral Polymers Naaman R., Mishra S., Mondal A. K. et_al. (2020) Angewandte Chemie - International Edition. 59, 34, p. 2-8 Electron transfer via helical oligopeptide to laccase including chiral schiff base copper mediators Kashiwagi K., Tassinari F., Haraguchi T., Banerjee-Gosh K., Akitsu T. & Naaman R. (2020) Symmetry. 12, 5, 808. Length-Dependent Electron Spin Polarization in Oligopeptides and DNA Mishra S., Mondal A. K., Pal S., Das T. K., Smolinsky E. Z. B., Siligardi G. & Naaman R. (2020) Journal of Physical Chemistry C. 124, 19, p. 10776-10782 Chiral Molecules and the Spin Selectivity Effect Naaman R., Paltiel Y. & Waldeck D. H. (2020) Journal of Physical Chemistry Letters. 11, 9, p. 3660-3666 Effect of Chiral Molecules on the Electron's Spin Wavefunction at Interfaces Ghosh S., Mishra S., Avigad E., Bloom B. P., Baczewski L. T., Yochelis S., Paltiel Y., Naaman R. & Waldeck D. H. (2020) Journal of Physical Chemistry Letters. 11, 4, p. 1550-1557 Highly Efficient and Tunable Filtering of Electrons' Spin by Supramolecular Chirality of Nanofiber-Based Materials Kulkarni C., Mondal A. K., Das T. K., Grinbom G., Tassinari F., Mabesoone M. F., Meijer E. W. & Naaman R. (2020) Advanced Materials. 7, 1904965. Comment on "spin-dependent electron transmission model for chiral molecules in mesoscopic devices" Naaman R. & Waldeck D. H. (2020) Physical Review B. 101, 2, 026403. Spin-dependent charge transfer at chiral electrodes probed by magnetic resonance Blumenschein F., Tamski M., Roussel C., Smolinsky E. Z. B., Tassinari F., Naaman R. & Ansermet J. (2020) Physical Chemistry Chemical Physics. 22, 3, p. 997-1002