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Literature DB >> 30061654

Evolution of cooperativity in the spin transition of an iron(II) complex on a graphite surface.

Lalminthang Kipgen¹, Matthias Bernien², Sascha Ossinger³, Fabian Nickel², Andrew J Britton², Lucas M Arruda², Holger Naggert³, Chen Luo⁴, Christian Lotze², Hanjo Ryll⁵, Florin Radu⁵, Enrico Schierle⁵, Eugen Weschke⁵, Felix Tuczek³, Wolfgang Kuch⁶.

Abstract

Cooperative effects determine the spin-state bistability of spin-crossover molecules (SCMs). Herein, the ultimate scale limit at which cooperative spin switching becomes effective is investigated in a complex [Fe(H2B(pz)2)2(bipy)] deposited on a highly oriented pyrolytic graphite surface, using x-ray absorption spectroscopy. This system exhibits a complete thermal- and light-induced spin transition at thicknesses ranging from submonolayers to multilayers. On increasing the coverage from 0.35(4) to 10(1) monolayers, the width of the temperature-induced spin transition curve narrows significantly, evidencing the buildup of cooperative effects. While the molecules at the submonolayers exhibit an apparent anticooperative behavior, the multilayers starting from a double-layer exhibit a distinctly cooperative spin switching, with a free-molecule-like behavior indicated at around a monolayer. These observations will serve as useful guidelines in designing SCM-based devices.

Entities: Chemical Disease Mutation Species

Year: 2018 PMID： 30061654 PMCID： PMC6065309 DOI： 10.1038/s41467-018-05399-8

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

36 in total

1. Robust spin crossover and memristance across a single molecule.

Authors: Toshio Miyamachi; Manuel Gruber; Vincent Davesne; Martin Bowen; Samy Boukari; Loïc Joly; Fabrice Scheurer; Guillaume Rogez; Toyo Kazu Yamada; Philippe Ohresser; Eric Beaurepaire; Wulf Wulfhekel
Journal: Nat Commun Date: 2012-07-03 Impact factor: 14.919

2. Spin Crossover in Novel Dihydrobis(1-pyrazolyl)borate [H(2)B(pz)(2)]-Containing Iron(II) Complexes. Synthesis, X-ray Structure, and Magnetic Properties of [FeL{H(2)B(pz)(2)}(2)] (L = 1,10-Phenanthroline and 2,2'-Bipyridine).

Authors: José Antonio Real; M. Carmen Muñoz; Juan Faus; Xavier Solans
Journal: Inorg Chem Date: 1997-07-02 Impact factor: 5.165

3. Primary role of the electrostatic contributions in a rational growth of hysteresis loop in spin-crossover Fe(II) complexes.

Authors: Mikaël Kepenekian; Boris Le Guennic; Vincent Robert
Journal: J Am Chem Soc Date: 2009-08-19 Impact factor: 15.419

4. Molecular spin crossover phenomenon: recent achievements and prospects.

Authors: Azzedine Bousseksou; Gábor Molnár; Lionel Salmon; William Nicolazzi
Journal: Chem Soc Rev Date: 2011-05-04 Impact factor: 54.564

5. Enhanced Cooperativity in Supported Spin-Crossover Metal-Organic Frameworks.

Authors: Thomas Groizard; Nick Papior; Boris Le Guennic; Vincent Robert; Mikaël Kepenekian
Journal: J Phys Chem Lett Date: 2017-07-12 Impact factor: 6.475

6. Spin Crossover in a Vacuum-Deposited Submonolayer of a Molecular Iron(II) Complex.

Authors: Matthias Bernien; Dennis Wiedemann; Christian F Hermanns; Alex Krüger; Daniela Rolf; Wolfgang Kroener; Paul Müller; Andreas Grohmann; Wolfgang Kuch
Journal: J Phys Chem Lett Date: 2012-11-09 Impact factor: 6.475

7. Current Switching Coupled to Molecular Spin-States in Large-Area Junctions.

Authors: Constantin Lefter; Sylvain Rat; José Sánchez Costa; María D Manrique-Juárez; Carlos M Quintero; Lionel Salmon; Isabelle Séguy; Thierry Leichle; Liviu Nicu; Philippe Demont; Aurelian Rotaru; Gábor Molnár; Azzedine Bousseksou
Journal: Adv Mater Date: 2016-06-16 Impact factor: 30.849

8. First observation of light-induced spin change in vacuum deposited thin films of iron spin crossover complexes.

Authors: Holger Naggert; Alexander Bannwarth; Steffen Chemnitz; Thomas von Hofe; Eckhard Quandt; Felix Tuczek
Journal: Dalton Trans Date: 2011-05-19 Impact factor: 4.390

9. Nonexponential relaxation of the metastable state of the spin-crossover system [Fe(L)2](ClO4)2.H2O [L = 2,6-Bis(pyrazol-1-ylmethyl)pyridine].

Authors: Cristian Enachescu; Jorge Linares; François Varret; Kamel Boukheddaden; Epiphane Codjovi; Sunita Gawali Salunke; Rabindranath Mukherjee
Journal: Inorg Chem Date: 2004-08-09 Impact factor: 5.165

Evolution of cooperativity in the spin transition of an iron(II) complex on a graphite surface.

1. Robust spin crossover and memristance across a single molecule.

2. Spin Crossover in Novel Dihydrobis(1-pyrazolyl)borate [H(2)B(pz)(2)]-Containing Iron(II) Complexes. Synthesis, X-ray Structure, and Magnetic Properties of [FeL{H(2)B(pz)(2)}(2)] (L = 1,10-Phenanthroline and 2,2'-Bipyridine).

3. Primary role of the electrostatic contributions in a rational growth of hysteresis loop in spin-crossover Fe(II) complexes.

4. Molecular spin crossover phenomenon: recent achievements and prospects.

5. Enhanced Cooperativity in Supported Spin-Crossover Metal-Organic Frameworks.

6. Spin Crossover in a Vacuum-Deposited Submonolayer of a Molecular Iron(II) Complex.

7. Current Switching Coupled to Molecular Spin-States in Large-Area Junctions.

8. First observation of light-induced spin change in vacuum deposited thin films of iron spin crossover complexes.

9. Nonexponential relaxation of the metastable state of the spin-crossover system [Fe(L)2](ClO4)2.H2O [L = 2,6-Bis(pyrazol-1-ylmethyl)pyridine].

10. Pressure and temperature spin crossover sensors with optical detection.

1. Crystal structure of bis-[di-hydro-bis-(pyrazol-1-yl)borato-κ² N ²,N ^2'](1,10-phenanthroline-κ² N,N')zinc(II).

Review 2. Sublimable Spin-Crossover Complexes: From Spin-State Switching to Molecular Devices.

3. Spin Crossover in a Cobalt Complex on Ag(111).

4. Room temperature conductance switching in a molecular iron(iii) spin crossover junction.