GOULVEN COSQUER

Last Updated :2021/04/06

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Assistant Professor
Web Site
E-mail
cosquerhiroshima-u.ac.jp
Other Contact Details
1 Chome-3-1 Kagamiyama, Higashihiroshima, Hiroshima 739-0046, Japan
TEL : (+81)81 82 424 7 FAX : (+81)
Self-introduction
researcher in the field of multifunctional single molecule magnet based on lanthanides ions

Basic Information

Major Professional Backgrounds

  • 2014/04/01, 2018/03/31, TOHOKU UNIVERSITY, Assistant Professor
  • 2019/04/01, 2019/06/30, TOHOKU UNIVERSITY
  • 2019/07/01, 2020/03/31, Hiroshima University, Graduate School of Science, Assistant Professor
  • 2020/04/01, Hiroshima University, Graduate School of Advanced Science and Engineering, Assistant Professor

Educational Backgrounds

  • Universit? de Rennes 1, France, 2009/09, 2012/11
  • Universit? de Rennes 1, France, 2006/09, 2009/01
  • Universit? de Rennes 1, France, 2002/09, 2006/11

Academic Degrees

  • Master, Rennes 1 University
  • Ph.D., Rennes 1 University

Educational Activity

  • 【Bachelor Degree Program】School of Science : Chemistry
  • 【Master's Program】Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Basic Chemistry Program
  • 【Doctoral Program】Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Basic Chemistry Program

Research Keywords

  • Single molecule magnet; Lanthanide; coordination compound;

Affiliated Academic Societies

  • The Chemical Society of Japan

Educational Activity

Course in Charge

  1. 2021, Liberal Arts Education Program1, 2Term, Fundamental Chemistry B
  2. 2021, Undergraduate Education, Second Semester, Special Study for Graduation
  3. 2021, Undergraduate Education, First Semester, English Seminar on Chemistry
  4. 2021, Undergraduate Education, Second Semester, English Seminar on Chemistry
  5. 2021, Undergraduate Education, First Semester, Chemical Experiments I
  6. 2021, Undergraduate Education, Second Semester, Chemical Experiments II
  7. 2021, Undergraduate Education, First Semester, Special Study for Graduation
  8. 2021, Graduate Education (Master's Program) , 3Term, Exercises in Chemistry B
  9. 2021, Graduate Education (Master's Program) , 1Term, Exercises in Chemistry A

Research Activities

Academic Papers

  1. Ferromagnetic versus Antiferromagnetic Exchange Interactions in Tetrathiafulvalene-Based 3d/4f Heterobimetallic Complexes., Chem. - A Eur., 17(44), 12502-12511, 2011
  2. Coordination Complexes with the Redox Active Tetrathiafulvalene Based Imino-Pyrazine Ligand: Syntheses, a Radical Cation Salt, Crystal Structures and Electrochemistry., Dalt. Trans., 38(18), 3495-3502, 2009
  3. 3d4f Heterobimetallic Dinuclear and Tetranuclear Complexes Involving Tetrathiafulvalene as Ligands: X-Ray Structures and Magnetic and Photophysical Investigations., Inorg. Chem., 51(12), 8488-8501, 2012
  4. Slow Magnetic Relaxation in Condensed versus Dispersed dysprosium(III) Mononuclear Complexes., Chem. - A Eur. J., 19(24), 7895-7903, 2013
  5. Alkylation Effects in Lanthanide Complexes Involving Tetrathiafulvalene Chromophores: Experimental and Theoretical Correlation between Magnetism and near-Infrared Emission., Eur. J. Inorg. Chem., 1, 69-82, 2014
  6. Control of the Single-Molecule Magnet Behavior of Lanthanide-Diarylethene Photochromic Assemblies by Irradiation with Light., Chem. - A Eur. J., 20(39), 12502-12513, 2014
  7. Remote Control of SMM Behaviour via DTE Ligands., Dalt. Trans., 44, 2936-2942, 2014
  8. Heterometallic CuII-DyIII Clusters of Different Nuclearities with Slow Magnetic Relaxation., Inorg. Chem., 55(2), 691-699, 2016
  9. Photo-Activation of Single Molecule Magnet Behavior in a Manganese-Based Complex., Sci. Rep., 6, 23785, 2016
  10. 1D Chains of Lanthanoid Ions and a Dithienylethene Ligand Showing Slow Relaxation of the Magnetization., Magnetochemisry, 2(2), 21, 2016
  11. Hybrid Molecular Compound Exhibiting Slow Magnetic Relaxation and Electrical Conductivity., Magnetochemisry, 2(44), 2-11, 2016
  12. Weak Dy III –Dy III Interactions in Dy III –Phthalocyaninato Multiple-Decker Single-Molecule Magnets Effectively Suppress Magnetic Relaxation., Inorg. Chem., 55(22), 11782-11790, 2016
  13. Field-Induced Slow Magnetic Relaxation of GdIII Complex with a Pt–Gd Heterometallic Bond, Chem. Eur. J., 23, 4551-4556, 2017
  14. Multiple Magnetic Relaxation Pathways and Dual-Emission Modulated by a Heterometallic Tb–Pt Bonding Environment, Chem. Eur. J., 23, 10527-10531, 2017
  15. Proton Control of the Lanthanoid Single-Ion Magnet Behavior of a Double-Decker Complex with an Indolenine-Substituted Annulene Ligand., Inorg. Chem., 56(11), 6512-6532, 2017
  16. Packing Structure Effects on the Slow Magnetic Relaxation Pathways of Dysprosium (III) Complexes., Bull. Chem. Soc. Jpn., 90(5), 595-603, 2017
  17. Photo-modulation of Single-Molecule Magnetic Dynamics of Two Dysprosium Ion Bridges by Diarylethene, Inorganics, 6, 9, 2018
  18. Novel Supramolecular Assemblies of Co(III) & Cu(II) with Diethylenetriamine and Azide: Synthesis, Structure, Spectroscopic and Magnetic Studies, Chemistry Select., 3, 2240-2244, 2018
  19. Slow Magnetic Relaxation Affected by Palladium-Gadolinium Polarization Effect: A case of Unprecedented d-Metal Electron Density Donation to Lanthanoid ions, Chem. - A Eur. J., 24(37), 9285-9294, 2018
  20. Photo-Control of the Magnetic Properties of Dy(III) and Ho(III) Homometal Coordination Polymers Bridged by a Diarylethene Ligand., Dalt. Trans., 44, 5996-6002, 2015
  21. Conducting Single Molecule Magnet Materials, Dalt. Trans., 47, 7616-7627, 2018
  22. Enhancement of electrocatalytic abilities for reducing carbon dioxide: Functionalization with a redox-active ligand-coordinated metal complex., Dalton Trans., 47, 11313-11316, 2018
  23. Scaling up Electronic Spin Qubits into a Three-Dimensional Molecular Framework., J. Am. Chem. Soc., 140, 12090-12101, 2018
  24. Ln-Pt Electron Polarization Effects on the Magnetic Relaxation of Heterometallic Ho- and Er-Pt Complexes, Dalt. Trans., 48, 7144-7149, 2019
  25. Tetranuclear copper(II) complexes with phenoxo and azido bridges. Synthesis, structural and magnetic studies, Chemistry Select, 3, 10311-10319, 2018
  26. Anion-driven structures and SMM behaviour of dinuclear terbium and ytterbium complexes., Dalt. Trans.
  27. Synthesis, structures, and magnetic properties of two coordination assemblies based on Mn(III) single molecule magnet bridged by photochromic diarylethene ligands., Inorg. Chem., 58(4), 2307-2314, 2019
  28. Formation of Pores and π-Stacked Columns in Benzothienobenzothiophene-based Linear Coordination Polymers., Chem. Lett., 48, 756-759, 2019
  29. Isostructural MII Complexes (M = Mn and Co) with Field-Induced Slow Magnetic Relaxation., Dalt. Trans., 48, 12023-12030, 2019
  30. Dysprosium Chlorocyanoanilate-based 2D Layered Coordination Polymers, Inog. Chem., 58(20), 13988-13998, 2019
  31. An Organic-Inorganic Hybrid Exhibiting Electrical Conduction and Single-Ion Magnetism, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 59(6), 2399-2406, 20200203
  32. Periodicity of Single-Molecule Magnet Behaviour of Heterotetranuclear Lanthanide Complexes across the Lanthanide Series: A Compendium, CHEMISTRY-A EUROPEAN JOURNAL, 26(27), 6036-6049, 20200512

Social Activities

History as Peer Reviews of Academic Papers

  1. Crysatls, Reviewer
  2. 2018, Inorganics, Reviewer, 1
  3. 2018, Dalton Transactions, Reviewer, 4
  4. 2017, Dalton Transactions, Reviewer, 1
  5. 2019, Dalton Transactions, Others, Reviewer, 2