Your search keyword '"Hiroki Akutsu"' showing total 272 results

1. Synthesis, Characterization, and Magnetic Properties of Iron(II) Complex with 2,6-Bis(pyrazol-3-yl)pyridine Ligand and Tetracyanonickelate Anion

Author

Fitriani Fitriani, Irma Mulyani, Djulia Onggo, Kristian Handoyo Sugiyarto, Ashis Bhattacharjee, Hiroki Akutsu, and Anas Santria

Subjects

iron(ii), spin crossover, tetracyanonickelate, 2,6-bis(pyrazol-3-yl)pyridine, Chemistry, QD1-999

Abstract

The complex containing iron(II), 2,6-bis(pyrazol-3-yl)pyridine (3-bpp) as ligand, and tetracyanonickelate as counter anion has been synthesized and characterized. The characterization data suggest the corresponding formula of [Fe(3-bpp)2][Ni(CN)4]·4H2O. Meanwhile, the SEM–EDX analysis image confirms the existence of all elements contained in the complex except the hydrogen atom. The infrared spectra exhibit vibration bands of the functional groups of 3-bpp ligand and [Ni(CN)4]−1 anion. From magnetic property measurement, the complex's molar magnetic susceptibility (XMT) value is 2.65 emu mol−1 K at 300 K, which contains about 75% high-spin state of the Fe(II) complex. Upon lowering the temperature, the XMT value gradually decreases around 1.37 emu mol−1 K at 13 K. It decreases sharply to about 0.73 emu mol−1 K at 2 K. These values reveal that Fe(II) complex is in the low-spin (LS) state. As a result, the complex exhibited spin-crossover characteristics of gradual transition without thermal hysteresis, and the transition temperature occurred below room temperature with a transition temperature (T1/2) close to 140 K. The spin crossover property of the complex is supported by a thermochromic reversible color change from red-brown at room temperature to dark brown on cooling in liquid nitrogen associated with the high-spin to low-spin transition.

Published

2023

2. Correlation-driven organic 3D topological insulator with relativistic fermions

Author

Tetsuya Nomoto, Shusaku Imajo, Hiroki Akutsu, Yasuhiro Nakazawa, and Yoshimitsu Kohama

Subjects

Science

Abstract

Abstract Exploring new topological phenomena and functionalities induced by strong electron correlation has been a central issue in modern condensed-matter physics. One example is a topological insulator (TI) state and its functionality driven by the Coulomb repulsion rather than a spin-orbit coupling. Here, we report a ‘correlation-driven’ TI state realized in an organic zero-gap system α-(BETS)2I3. The topological surface state and chiral anomaly are observed in temperature and field dependences of resistance, indicating a three-dimensional TI state at low temperatures. Moreover, we observe a topological phase switching between the TI state and non-equilibrium Dirac semimetal state by a dc current, which is a unique functionality of a correlation-driven TI state. Our findings demonstrate that correlation-driven TIs are promising candidates not only for practical electronic devices but also as a field for discovering new topological phenomena and phases.

Published

2023

3. Electric dipole induced bulk ferromagnetism in dimer Mott molecular compounds

Author

Ryo Yoshimoto, Satoshi Yamashita, Hiroki Akutsu, Yasuhiro Nakazawa, Tetsuro Kusamoto, Yugo Oshima, Takehito Nakano, Hiroshi M. Yamamoto, and Reizo Kato

Subjects

Medicine, Science

Abstract

Abstract Magnetic properties of Mott–Hubbard systems are generally dominated by strong antiferromagnetic interactions produced by the Coulomb repulsion of electrons. Although theoretical possibility of a ferromagnetic ground state has been suggested by Nagaoka and Penn as single-hole doping in a Mott insulator, experimental realization has not been reported more than half century. We report the first experimental possibility of such ferromagnetism in a molecular Mott insulator with an extremely light and homogeneous hole-doping in π-electron layers induced by net polarization of counterions. A series of Ni(dmit)2 anion radical salts with organic cations, where dmit is 1,3-dithiole-2-thione-4,5-dithiolate can form bi-layer structure with polarized cation layers. Heat capacity, magnetization, and ESR measurements substantiated the formation of a bulk ferromagnetic state around 1.0 K with quite soft magnetization versus magnetic field (M–H) characteristics in (Et-4BrT)[Ni(dmit)2]2 where Et-4BrT is ethyl-4-bromothiazolium. The variation of the magnitude of net polarizations by using the difference of counter cations revealed the systematic change of the ground state from antiferromagnetic one to ferromagnetic one. We also report emergence of metallic states through further doping and applying external pressures for this doping induced ferromagnetic state. The realization of ferromagnetic state in Nagaoka–Penn mechanism can paves a way for designing new molecules-based ferromagnets in future.

Published

2021

4. Fermi Surface Structure and Isotropic Stability of Fulde-Ferrell-Larkin-Ovchinnikov Phase in Layered Organic Superconductor β″-(BEDT-TTF)2SF5CH2CF2SO3

Author

Shiori Sugiura, Hiroki Akutsu, Yasuhiro Nakazawa, Taichi Terashima, Syuma Yasuzuka, John A. Schlueter, and Shinya Uji

Subjects

organic superconductor, resistance, FFLO phase, vortex dynamics, Crystallography, QD901-999

Abstract

The Fermi surface structure of a layered organic superconductor β″-(BEDT-TTF)2SF5CH2CF2SO3 was determined by angular-dependent magnetoresistance oscillations measurements and band-structure calculations. This salt was found to have two small pockets with the same area: a deformed square hole pocket and an elliptic electron pocket. Characteristic corrugations in the field dependence of the interlayer resistance in the superconducting phase were observed at any in-plane field directions. The features were ascribed to the commensurability (CM) effect between the Josephson vortex lattice and the periodic nodal structure of the superconducting gap in the Fulde–Ferrell–Larkin–Ovchinnikov (FFLO) phase. The CM effect was observed in a similar field region for various in-plane field directions, in spite of the anisotropic nature of the Fermi surface. The results clearly showed that the FFLO phase stability is insensitive to the in-plane field directions.

Published

2021

5. Electronic Heat Capacity and Lattice Softening of Partially Deuterated Compounds of κ-(BEDT-TTF)2Cu[N(CN)2]Br

Author

Yuki Matsumura, Shusaku Imajo, Satoshi Yamashita, Hiroki Akutsu, and Yasuhiro Nakazawa

Subjects

organic superconductor, strong electron correlations, heat capacity, Mott transition, Crystallography, QD901-999

Abstract

Thermodynamic investigation by calorimetric measurements of the layered organic superconductors, κ-(BEDT-TTF)2Cu[N(CN)2]Br and its partially deuterated compounds of κ-(d[2,2]-BEDT-TTF)2Cu[N(CN)2]Br and κ-(d[3,3]-BEDT-TTF)2Cu[N(CN)2]Br, performed in a wide temperature range is reported. The latter two compounds were located near the metal–insulator boundary in the dimer-Mott phase diagram. From the comparison of the temperature dependences of their heat capacities, we indicated that lattice heat capacities of the partially deuterated compounds were larger than that of the pristine compound below about 40 K. This feature probably related to the lattice softening was discussed also by the sound velocity measurement, in which the dip-like structures of the Δv/v were observed. We also discussed the variation of the electronic heat capacity under magnetic fields. From the heat capacity data at magnetic fields up to 6 T, we evaluated that the normal-state γ value of the partially deuterated compound, κ-(d[3,3]-BEDT-TTF)2Cu[N(CN)2]Br, was about 3.1 mJ K−2 mol−1. Under the magnetic fields higher than 3.0 T, we observed that the magnetic-field insulating state was induced due to the instability of the mid-gap electronic state peculiar for the two-dimensional dimer-Mott system. Even though the volume fraction was much reduced, the heat capacity of κ-(d[3,3]-BEDT-TTF)2Cu[N(CN)2]Br showed a small hump structure probably related to the strong coupling feature of the superconductivity near the boundary.

Published

2021

6. Perspectives on Molecular Materials—A Tribute to Professor Peter Day

Author

Lee Martin, Scott S. Turner, John D. Wallis, Hiroki Akutsu, and Carlos J. Gómez-García

Subjects

n/a, Chemistry, QD1-999

Abstract

Professor Peter Day FRS was born on 20 August 1938 in Kent (UK) and attended Maidstone Grammar School [...]

Published

2021

7. First Molecular Superconductor with the Tris(Oxalato)Aluminate Anion, β″-(BEDT-TTF)4(H3O)Al(C2O4)3·C6H5Br, and Isostructural Tris(Oxalato)Cobaltate and Tris(Oxalato)Ruthenate Radical Cation Salts

Author

Toby James Blundell, Michael Brannan, Joey Mburu-Newman, Hiroki Akutsu, Yasuhiro Nakazawa, Shusaku Imajo, and Lee Martin

Subjects

molecular conductor, superconductor, metal, semiconductor, BEDT-TTF, tris(oxalato)metallate, Chemistry, QD1-999

Abstract

Peter Day’s research group reported the first molecular superconductor containing paramagnetic metal ions in 1995, β″-(BEDT-TTF)4(H3O)Fe(C2O4)3·C6H5CN. Subsequent research has produced a multitude of BEDT-TTF-tris(oxalato)metallate salts with a variety of structures and properties, including 32 superconductors to date. We present here the synthesis, crystal structure, and conducting properties of the newest additions to the Day series including the first superconductor incorporating the diamagnetic tris(oxalato)aluminate anion, β″-(BEDT-TTF)4(H3O)Al(C2O4)3·C6H5Br, which has a superconducting Tc of ~2.5 K. β″-(BEDT-TTF)4(H3O)Co(C2O4)3·C6H5Br represents the first example of a β″ phase for the tris(oxalato)cobaltate anion, but this salt does not show superconductivity.

Published

2021

8. Structures and Properties of New Organic Molecule-Based Metals, (D)2BrC2H4SO3 [D = BEDT-TTF and BETS]

Author

Hiroki Akutsu, Yuta Koyama, Scott S. Turner, and Yasuhiro Nakazawa

Subjects

organic conductors, organic anions, electrocrystallization, crystal structure, band structure, electrical resistivity, Chemistry, QD1-999

Abstract

An organic anion, 2-bromoethanesulfonate (BrC2H4SO3−), provides one bis(ethylenedithio)tetrathiafulvalene (BEDT-TTF) and two bis(ethylenedithio)tetraselenafulvalene (BETS) salts, the compositions of which are β’’-β’’-(BEDT-TTF)2BrC2H4SO3 (1), β’’-β’’-(BETS)2BrC2H4SO3 (2), and θ-(BETS)2BrC2H4SO3 (3), respectively. Compound 1 shows a metal–insulator transition at around 70 K. Compound 2 is isomorphous to 1, and 3 is polymorphic with 2. Compounds 2 and 3 show metallic behavior at least down to 4.2 K. The pressure dependence of the electrical resistivity of 1 is also reported.

Published

2021

9. New Spin-Crossover Compounds Containing the [Ni(mnt)] Anion (mnt = Maleonitriledithiolate)

Author

Scott S. Turner, Joanna Daniell, Hiroki Akutsu, Peter N. Horton, Simon J. Coles, and Volker Schünemann

Subjects

spin-crossover, molecular magnets, magnetic materials, molecular materials, Chemistry, QD1-999

Abstract

Two novel salts containing the anion [Ni(mnt)2]− (mnt = maleonitriledithiolate) have been synthesized. The counter-ions, [Fe(II)(L1 or L2)2], are cationic complexes where L1 and L2 are methylated derivatives of 2,6-bis(pyazolyl)pyridine or pyrazine, which are similar to ligands found in a series of spin-crossover (SCO) complexes. Both salts are characterized by variable temperature single crystal X-ray diffraction and bulk magnetization measurements. Compound 1, [Fe(II)(L1)2][Ni(mnt)2]2 displays an incomplete and gradual SCO up to 300 K, followed by a more rapid increase in the high-spin fraction between 300 and 350 K. Compound 2, [Fe(II)(L2)2][Ni(mnt)2]2.MeNO2, shows a gradual, but more complete SCO response centered at 250 K. For compound 2, the SCO is confirmed by variable temperature Mössbauer spectroscopy. In both cases, the anionic moieties are isolated from each other and so no electrical conductivity is observed.

Published

2021

10. Structures and Properties of New Organic Conductors: BEDT-TTF, BEST and BETS Salts of the HOC2H4SO3− Anion

Author

Hiroki Akutsu, Yuta Koyama, Scott S. Turner, Keigo Furuta, and Yasuhiro Nakazawa

Subjects

organic conductors, bis(ethylenedithio)tetrathiafulvalene (BEDT-TTF), bis(ethylenediseleno)tetrathiafulvalene (BEST), bis(ethylenedithio)tetraselenafulvalene (BETS), electrical resistivity, magnetic susceptibility, Crystallography, QD901-999

Abstract

New bis(ethylenedithio)tetrathiafulvalene (BEDT-TTF)-, bis(ethylenediseleno)tetrathiafulvalene (BEST)- and bis(ethylenedithio)tetraselenafulvalene (BETS)-based organic charge-transfer (CT) salts—α-(BEDT-TTF)3(HOC2H4SO3)2 (1), β-(BEST)3(HOC2H4SO3)2·H2O (2) and α-(BETS)2(HOC2H4SO3)·H2O (3)—have been prepared. Salts 1 and 2 show semiconducting behaviour. Salt 3, which is almost isostructural to α-(BETS)2I3, shows metallic behaviour down to 70 K and then shows a broader metal–insulator transition than that of α-(BETS)2I3. The reason for the difference in behaviour is estimated by the comparison of the Madelung energies of the full set of patterns of possible donor’s charge-ordered and anion’s disordered states.

Published

2020

11. Effects of electron correlations and chemical pressures on superconductivity of β^{′′}-type organic compounds

Author

Shusaku Imajo, Hiroki Akutsu, Akane Akutsu-Sato, Alexander L. Morritt, Lee Martin, and Yasuhiro Nakazawa

Subjects

Physics, QC1-999

Abstract

We investigate low-temperature electronic states of the series of organic conductors β^{′′}-[bis(ethylenedithio)tetrathiafulvalene]_{4}[(H_{3}O)M(C_{2}O_{4})_{3}]G, where M and G represent trivalent metal ions and guest organic molecules, respectively. Our structural analyses reveal that the replacement of M and G give rise to systematic change in the cell parameters, especially in the b-axis length, which has a positive correlation with the superconducting transition temperature T_{c}. Analysis of temperature and magnetic field dependences of the electrical resistance including the Shubnikov–de Haas oscillations elucidates that the variation of charge disproportionation, the effective mass, and the number of itinerant carriers can be systematically explained by the change of the b-axis length. The changes of the transfer integrals induced by stretching/compressing the b axis are confirmed by the band calculation. We discuss that electron correlations in quarter-filled electronic bands lead to charge disproportionation and the possibility of a novel pairing mechanism of superconductivity mediated by charge degrees of freedom.

Published

2019

12. Magnetic and Electronic Properties of π-d Interacting Molecular Magnetic Superconductor κ-(BETS)2FeX4 (X = Cl, Br) Studied by Angle-Resolved Heat Capacity Measurements

Author

Shuhei Fukuoka, Sotarou Fukuchi, Hiroki Akutsu, Atsushi Kawamoto, and Yasuhiro Nakazawa

Subjects

π-d system, thermodynamic measurement, superconductivity, antiferromagnetism, single crystal heat capacity measurement, magnetic conductor, Crystallography, QD901-999

Abstract

Thermodynamic picture induced by π-d interaction in a molecular magnetic superconductor κ-(BETS)2FeX4 (X = Cl, Br), where BETS is bis(ethylenedithio)tetraselenafulvalene, studied by single crystal calorimetry is reviewed. Although the S = 5/2 spins of Fe3+ in the anion layers form a three-dimensional long-range ordering with nearly full entropy of Rln6, a broad hump structure appears in the temperature dependence of the magnetic heat capacity only when the magnetic field is applied parallel to the a axis, which is considered as the magnetic easy axis. The scaling of the temperature dependence of the magnetic heat capacity of the two salts is possible using the parameter of |Jdd|/kB and therefore the origin of the hump structure is related to the direct magnetic interaction, Jdd, that is dominant in the system. Quite unusual crossover from a three-dimensional ordering to a one-dimensional magnet occurs when magnetic fields are applied parallel to the a axis. A notable anisotropic field-direction dependence against the in-plane magnetic field was also observed in the transition temperature of the bulk superconductivity by the angle-resolved heat capacity measurements. We discuss the origin of this in-plane anisotropy in terms of the 3d electron spin configuration change induced by magnetic fields.

Published

2019

13. Structures of the reaction products of the AZADO radical with TCNQF4 or thiourea

Author

Hideto Suzuki, Yuta Kawahara, Hiroki Akutsu, Jun-ichi Yamada, and Shin’ichi Nakatsuji

Subjects

adduct, inclusion compound, nitroxide radical, TCNQF4, thiourea, Science, Organic chemistry, QD241-441

Abstract

While an addition product was formed by the reaction of AZADO (2-azaadamantane N-oxyl) with TCNQF4 (2,3,5,6-tetrafluoro-7,7,8,8-tetracyanoquinodimethane), the reaction of AZADO with thiourea provided an inclusion compound, in which AZADO molecules are incorporated in cylindrical channels formed by thiourea molecules.

Published

2013

14. Chemical Modifications of BDH-TTP [2,5-Bis(1,3-dithiolan-2-ylidene)-1,3,4,6-tetrathiapentalene]: Control of Electron Correlation

Author

Hiroki Akutsu and Jun-ichi Yamada

Subjects

organic molecular conductor, strongly correlated electron system, electron correlation, superconductivity, chemical modification, donor molecule, itinerant electron system, bandwidth, Crystallography, QD901-999

Abstract

Organic molecular conductors with a strongly correlated electron system, in which the itinerancy of electrons (or holes) and the electron correlation (U/W, U, the on-site Coulomb repulsion, W, the bandwidth) compete with each other, are promising candidates for achieving superconductivity and also for exploring remarkable physical properties induced by external stimuli such as pressure, light, voltage and current. Our synthetic approach to the construction of strongly correlated organic electron systems is based on chemical modifications to the donor molecule BDH-TTP [2,5-bis(1,3-dithiolan-2-ylidene)-1,3,4,6-tetrathiapentalene] capable of producing metallic CT (charge-transfer) salts stable down to low temperatures (4.2–1.5 K). This aims at enhancing the electron correlation in the itinerant electron system by decreasing the bandwidth. Chemical modifications of BDH-TTP such as ring expansion of two outer dithiolane rings, replacement of one sulfur atom in an outer dithiolane ring with an oxygen atom and introduction of two methyl substituents into an outer ditiolane ring led to BDA-TTP [2,5-bis(1,3-dithian-2-ylidene)-1,3,4,6-tetrathiapentalene], DHOT-TTP [2-(1,3-dithiolan-2-ylidene)-5-(1,3-oxathiolan-2-ylidene)-1,3,4,6-tetrathiapentalene] and DMDH-TTP [2-(4,5-dimethyl-1,3-dithiolan-2-ylidene)-5-(1,3-dithiolan-2-ylidene)-1,3,4,6-tetrathiapentalene], respectively. In this review, the physical properties and the crystal and electronic structures of molecular conductors derived from these donor molecules will be described.

Published

2012

15. Single-Component Charge-Transfer Crystals Based on Spin-Carrying TCNQ (7,7,8,8-Tetracyanoquinodimethane) Derivatives

Author

Shin’ichi Nakatsuji, Jun-ichi Yamada, Hiroki Akutsu, and Hideto Suzuki

Subjects

CT complex, nitroxide, TCNQ, redox property, magnetic property, crystal structure, Crystallography, QD901-999

Abstract

Three TCNQ derivatives carrying nitroxide radicals (3a–3c) were prepared and were found to form single-component charge-transfer (CT) complexes by self-assembly, in which outer nitroxide groups of a couple of different molecules work as donors and the inner TCNQ unit of another molecule as an acceptor. While the CT interactions found for the TEMPO (2,2,6,6-tetramethylpiperidin-1-oxy) derivative 3a and the PROXYL (2,2,5,5-tetramethylpirrolidin-1-oxy) derivative 3b are point-to-face fashion between the oxygen atom of each nitroxide group and the six-membered ring of inner TCNQ unit, the CT interactions found for the PO (2,2,5,5-tetramethyl-3-pyrrolin-1-oxy) derivative 3c are point-to-point contacts between the oxygen atoms of outer nitroxide groups and the carbon atoms of a couple of cyano groups.

Published

2012

16. A New BEDT-TTF-Based Organic Charge Transfer Salt with a New Anionic Strong Acceptor, N,N'-Disulfo-1,4-benzoquinonediimine

Author

Scott S. Turner, Shin’ichi Nakatsuji, Jun-ichi Yamada, and Hiroki Akutsu

Subjects

organic conductor, BEDT-TTF, hole doping effect, anionic acceptor, transport properties, magnetic properties, Crystallography, QD901-999

Abstract

A novel organic dianion, N,N'-Disulfo-1,4-benzoquinonediimine (1) has been prepared, which is a strong electron acceptor. The reduction potential of the PPh4 salt indicates that 1 is a stronger acceptor than DDQ (2,3-dichloro-5,6-dicyano-1,4-benzoquinone). The dianionic acceptor provided a BEDT-TTF salt, (BEDT-TTF)41·3H2O, the structures and physical properties of which are reported.

Published

2012

17. Thermodynamic Picture of Dimer-Mott Organic Superconductors Revealed by Heat Capacity Measurements with External and Chemical Pressure Control

Author

Yasuhiro Nakazawa, Shusaku Imajo, Yuki Matsumura, Satoshi Yamashita, and Hiroki Akutsu

Subjects

organic superconductor, dimer-Mott system, heat capacity, electron correlations, d-wave, pressure, Crystallography, QD901-999

Abstract

This article reviews and discusses the thermodynamic properties of dimer-Mott-type molecular superconductive compounds with (BEDT-TTF)2X composition, where BEDT-TTF is bis(ethylenedithio)tetrathiafulvalene and X denotes counter-anions, respectively. We focus mainly on the features occurring in the κ-type structure in which the d-wave superconductive phase appears depending on the Coulomb repulsion U and the bandwidth W, which is tunable by external and chemical pressures. First, we report the high-pressure ac (alternating current) calorimetry technique and experimental system constructed to measure single-crystal samples of molecule-based compounds to derive low-temperature thermodynamic parameters. Using extremely small resistance chips as a heater and a thermometer allows four-terminal detection of an accurate temperature and its oscillation in the sample part with sufficient sensitivity. From the analyses of the temperature dependence of the ac heat capacity of κ-(BEDT-TTF)2Cu(NCS)2 under external pressures, we discuss the changes in the peak shape of the thermal anomaly at the superconductive transition temperature Tc at various external pressures p. The rather sharp peak in CpT−1 at Tc = 9.1 K with a strong coupling character at ambient pressure is gradually reduced to weaker coupling as the pressure increases to 0.45 GPa concomitant with suppression of the transition temperature. This feature is compared with the systematic argument of the chemical–pressure effect on the basis of thermal anomalies around the superconductive transition of κ-(BEDT-TTF)2X compounds and other previously studied typical dimer-Mott 2:1 compounds. Finally, the discussion is extended to the chemical pressure effect on the normal state electronic heat capacity coefficient γ obtained by applying magnetic fields higher than Hc2 and the residual γ*, which remains in the superconductive state due to the induced electron density of states around the node structure. From the overall arguments with respect to both chemical and external pressures, we suggest that a crossover of the electronic state inside the superconductive phase occurs and the coupling strength of electron pairs varies from the electron correlation region near the metal-insulator boundary to the band picture region.

Published

2018

18. Molecular Complexes Based on Tetrathiafulvalene and Dialkylviologens

Author

Bilkish Rahman, Hiroki Akutsu, Jun-ichi Yamada, and Shin’ichi Nakatsuji

Subjects

Molecular complex, CT complex, TTF, viologen, crystal structure, Organic chemistry, QD241-441

Abstract

Three kinds of molecular complexes based on tetrathiafulvalene (TTF) and dialkylviologens were prepared and their crystal structures elucidated. While TTF-dimethylviologen complex forms a mixed stack arrangement of donors and acceptors in its crystal structure, TTF donors aggregate with long alkyl groups by CH/p and/or van der Waals interactions in a couple of TTF-heptylviologen complexes.

Published

2007

19. N-Salicylideneamine Derivatives with TEMPO Substituents

Author

Shin’ichi Nakatsuji, Jun-ichi Yamada, Hiroki Akutsu, and Masayuki Hata

Subjects

Salicylideneamine, salicylideneaniline, TEMPO, magnetic property, crystal structure, Organic chemistry, QD241-441

Abstract

Three N-salicylideneamine derivatives bearing TEMPO (2,2,6,6-tetra- methyl-1-piperidinyloxy) substituents were prepared in order to study their structure and property relationships and to investigate the possibilities of the existence of heat and/or light responsive magnetic properties. Curie-Weiss behavior with weak ferromagnetic intermolecular spin-spin interactions was observed in one of the radicals, while antiferromagnetic interactions were predominant for the other radicals and the structure-property relationships were investigated for the radical compounds from their crystal structures obtained by X-ray analyses. Preliminary results of the examination of their responses towards light and heat are also described.

Published

2004

20. A High-Temperature Solar Selective Absorber Based upon Periodic Shallow Microstructures Coated by Multi-Layers Using Atomic Layer Deposition

Author

Makoto Shimizu, Hiroki Akutsu, Shinichiro Tsuda, Fumitada Iguchi, and Hiroo Yugami

Subjects

selective solar absorbers, atomic layer deposition, high temperature materials, microcavity, multi-layer, Applied optics. Photonics, TA1501-1820

Abstract

Regarding the fabrication of solar selective absorbers, the ability to create microstructures on top of metal surfaces is a promising technology. Typically, these materials are able to possess spectrally-selective absorption properties for high-temperature usage. Solar-selective absorbers that function at temperatures up to 700 °C and possess shallow honeycomb cylindrical microcavities coated with a metal-dielectric multi-layer have been investigated. Honeycomb array cylindrical microcavities were fabricated on W substrate with interference lithography and multi-layers consisting of Pt nano-film sandwiched by Al2O3 layers were created for a uniform coating via atomic layer deposition. The absorbance spectrum of fabricated samples reveals results consistent with a simulation based on a rigorous coupled-wave analysis method. A solar absorbance value of 0.92 and a hemispherical total emittance value of 0.18 at 700 °C was determined from the fabricated solar-selective absorber. Additionally, thermal stability of up to 700 °C was confirmed in vacuum.

Published

2016

21. Introduction of new guest molecules into BEDTTTF radical-cation salts with tris(oxalato)ferrate.

Author

Blundell, Toby J., Rusbridge, Elizabeth K., Pemberton, Rebecca E., Brannan, Michael J., Morritt, Alexander L., Ogar, Joseph O., Wallis, John D., Hiroki Akutsu, Yasuhiro Nakazawa, Shusaku Imajo, and Martin, Lee

Subjects

SUPERCONDUCTING transitions, SALTS, MOLECULES, BENZONITRILE, CRYSTAL structure, ETHANOL, BENZALDEHYDE

Abstract

Radical-cation salts of formula β?-(BEDT-TTF)4[(H3O)Fe(C2O4)3]·guest have produced a large number of superconductors and provided a route to introduce magnetism and chirality into the same multifunctional material. A relationship has been found in these salts between the length of the b axis and the superconducting Tc. Increasing the b axis length by introducing larger guest molecules, such as benzonitrile and nitrobenzene, gives the highest superconducting Tcs in this family of salts. Smaller guests such as pyridine show no superconducting transition, whilst asymmetrical guests which are larger than nitrobenzene have given a different bilayered structure. Other potential guest molecules have been limited by their ability to be used as the solvent in which the crystals are grown via electrocrystallisation. This paper reports a method which introduces guest molecules into the crystal which are a solid or liquid additive within the crystal-growing solvent 1,2,4-trichlorobenzene:ethanol. We present the crystal structures of five new BEDT-TTF radical-cation salts with tris(oxalato)ferrate anions using guest molecules toluene, phenol, benzaldehyde, 4-bromobenzaldehyde, and kojic acid. [ABSTRACT FROM AUTHOR]

Published

2024

22. Role of the Anion Layer’s Polarity in Organic Conductors β″-(BEDT-TTF)2XC2H4SO3 (X = Cl and Br)

Author

Hiroki Akutsu, Mikio Uruichi, Shusaku Imajo, Koichi Kindo, Yasuhiro Nakazawa, and Scott S. Turner

Subjects

General Energy, Physical and Theoretical Chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Published

2022

23. A 2D Interactive Spin Ladder System, δ′-(BEDT-TTF)2ClC2H4SO3·H2O

Author

Hiroki Akutsu, Scott S. Turner, and Yasuhiro Nakazawa

Subjects

General Materials Science, General Chemistry, Condensed Matter Physics

Published

2022

24. Magnetic field induced transition in the charge-glass former θ−(BEDT−TTF)2CsCo(SCN)4

Author

Tetsuya Nomoto, Satoshi Yamashita, Hiroki Akutsu, and Yasuhiro Nakazawa

Published

2023

25. Thermodynamic Properties of the Mott Insulator-Metal Transition in a Triangular Lattice System Without Magnetic Order

Author

Emre Yesil, Shusaku Imajo, Satoshi Yamashita, Hiroki Akutsu, Yohei Saito, Andrej Pustogow, Atsushi Kawamoto, and Yasuhiro Nakazawa

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Strongly Correlated Electrons (cond-mat.str-el), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

The organic system, $\kappa$-[(BEDT-TTF)$_{1-x}$(BEDT-STF)$_x$]$_2$Cu$_2$(CN)$_3$, showing the Mott transition between a nonmagnetic Mott insulating (NMI) state and a Fermi liquid (FL), is systematically studied by calorimetric measurements. An increase of the electronic heat capacity at the transition from the NMI state to the FL state which keeps the triangular dimer lattice demonstrates that the charge sector lost in the Mott insulating state is recovered in the FL state. We observed that the remaining low-energy spin excitations in the Mott insulating state show unique temperature dependence, and that the NMI state has a larger lattice entropy originating from the frustrated lattice, which leads to the Pomeranchuk-like effect on the electron localization. Near the Mott boundary, an unexpected enhancement and magnetic-field dependence of heat capacity are observed. This anomalous heat capacity is different from the behavior in the typical first-order Mott transition and shows similarities with quantum critical behavior. To reconcile our results with previously reported scenarios about a spin gap and the first-order Mott transition, further studies are desired., Comment: 9 pages, 4 figures

Published

2023

26. Systematic study on thermal conductivity of organic triangular lattice systems β′-X[Pd(dmit)2]2

Author

Tetsuya Nomoto, Satoshi Yamashita, Hiroki Akutsu, Yasuhiro Nakazawa, and Reizo Kato

Published

2022

27. Molecular conductors from bis(ethylenedithio)tetrathiafulvalene with tris(oxalato)gallate and tris(oxalato)iridate

Author

Toby J. Blundell, Alexander L. Morritt, Elizabeth K. Rusbridge, Luke Quibell, Jakob Oakes, Hiroki Akutsu, Yasuhiro Nakazawa, Shusaku Imajo, Tomofumi Kadoya, Jun-ichi Yamada, Simon J. Coles, Jeppe Christensen, and Lee Martin

Subjects

Chemistry (miscellaneous), General Materials Science

Abstract

We present the synthesis, crystal structures and conducting properties of six new BEDT-TTF radical-cation salts with the tris(oxalato)gallate or -iridate anion. The use of halobenzenes gives 4 : 1 β′′ metallic or superconducting salts with tris(oxalato)gallate - fluorobenzene (PhF) or chlorobenzene (PhCl) as a guest molecule gives a metal, whilst the larger bromobenzene (PhBr) or iodobenzene (PhI) gives a superconductor. A 4 : 1 pseudo-κ semiconducting salt is obtained with benzonitrile as the guest molecule for tris(oxalato)iridate, and a novel 5 : 1 metal-insulator phase with tris(oxalato)iridate is also reported.

Published

2022

28. Thermal conductivity measurement system for molecules-based compounds available in a wide temperature region

Author

Luming Zhang, Tetsuya Nomoto, Satoshi Yamashita, Hiroki Akutsu, Alexander I. Krivchikov, and Yasuhiro Nakazawa

Subjects

Physics and Astronomy (miscellaneous), General Physics and Astronomy

Abstract

The construction of a thermal conductivity measurement system designed for tiny molecules-based compounds is reported. We introduce complementary usage of chip-type RuO2 thermometers and E-type thermocouples in the sample part by using thin (ϕ 13μm) constantan and chromel wires. Two pairs of the constantan and chromel wires are used as lead wires for the four-terminal measurement of the resistance of RuO2 thermometers in the low-temperature region below about 20 K. Also, in the higher temperature region above 10 K up to room temperature with the overlapping range of 10-20 K, they are used as thermocouples for detecting temperature differences from that of the heat sink. We also compare a kind of resolution parameter of several sensors as a function of temperature to discuss the rational reason to select suitable sensors depending on the temperature region. Using the constructed apparatus, we report temperature dependences of the thermal conductivity of deuterated κ-(d8:BEDT-TTF)2Cu[N(CN)2]Br in a wide temperature range between 2 and 250 K. The result provides convincing evidence for the validity of the newly developed system for the thermal measurements of molecular crystals.

Published

2023

29. Asymmetric N-heteroacene tetracene analogues as potential n-type semiconductors

Author

Andrew J. P. White, Mark Oxborrow, Max Attwood, Anthony Maho, Wern Ng, Sandrine Heutz, Joseph H. L. Hadden, Hao Wu, Hiroki Akutsu, Dong Kuk Kim, Engineering & Physical Science Research Council (EPSRC), and Engineering & Physical Science Research Council (E

Subjects

Technology, Materials science, Materials Science, Heteroatom, Materials Science, Multidisciplinary, Crystal structure, Physics, Applied, ACENES, chemistry.chemical_compound, Materials Chemistry, Molecule, Thin film, 0912 Materials Engineering, HOMO/LUMO, 0306 Physical Chemistry (incl. Structural), PENTACENE, Science & Technology, CRYSTAL, DERIVATIVES, Physics, SUBSTITUTION, 0303 Macromolecular and Materials Chemistry, General Chemistry, STATE, Organic semiconductor, Crystallography, Tetracene, chemistry, Physical Sciences, THIN-FILM TRANSISTORS, Single crystal

Abstract

In the search for high performance n-type organic semiconductors (OSCs) a simple strategy might be substitution of aromatic CH groups for nitrogen heteroatoms. Here, we report the synthesis and characterisation of two novel N-heteroacene compounds, namely, 1,5,12-triazatetracene (TrAT1) and 2,5,12-triazatetracene (TrAT2). Their potential as n-type materials is evaluated against 5,12-diazatetracene (DAT) by UV/vis and EPR spectroscopy, cyclic voltammetry, DFT, single crystal X-ray diffraction and thin film characterisation. Increasing the number of N-heteroatoms was found to stabilise the HOMO and LUMO leading to electron affinities for TrAT1 and TrAT2 of ca. −4 eV. Both compounds were found to exhibit columns of co-facial π-stacked molecules. For TrAT1, molecules are also linked by hydrogen bonding, while the crystal structure of TrAT2 was found to be inherently disordered. Thin films of DAT, TrAT1 and TrAT2 were grown by organic molecular beam deposition (OMBD) and found to form discontinuous films, where TrAT1 exhibited a preferential orientation.

Published

2021

30. Electric dipole induced bulk ferromagnetism in dimer Mott molecular compounds

Author

Reizo Kato, Yasuhiro Nakazawa, Hiroki Akutsu, Ryo Yoshimoto, Takehito Nakano, Yugo Oshima, Tetsuro Kusamoto, Hiroshi Yamamoto, and Satoshi Yamashita

Subjects

Materials science, Science, 02 engineering and technology, Electron, 01 natural sciences, Article, Magnetization, Condensed Matter::Materials Science, Magnetic properties and materials, 0103 physical sciences, Antiferromagnetism, 010306 general physics, Multidisciplinary, Condensed matter physics, Mott insulator, 021001 nanoscience & nanotechnology, Magnetic field, Dipole, Ferromagnetism, Medicine, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology, Ground state

Abstract

Magnetic properties of Mott–Hubbard systems are generally dominated by strong antiferromagnetic interactions produced by the Coulomb repulsion of electrons. Although theoretical possibility of a ferromagnetic ground state has been suggested by Nagaoka and Penn as single-hole doping in a Mott insulator, experimental realization has not been reported more than half century. We report the first experimental possibility of such ferromagnetism in a molecular Mott insulator with an extremely light and homogeneous hole-doping in π-electron layers induced by net polarization of counterions. A series of Ni(dmit)2 anion radical salts with organic cations, where dmit is 1,3-dithiole-2-thione-4,5-dithiolate can form bi-layer structure with polarized cation layers. Heat capacity, magnetization, and ESR measurements substantiated the formation of a bulk ferromagnetic state around 1.0 K with quite soft magnetization versus magnetic field (M–H) characteristics in (Et-4BrT)[Ni(dmit)2]2 where Et-4BrT is ethyl-4-bromothiazolium. The variation of the magnitude of net polarizations by using the difference of counter cations revealed the systematic change of the ground state from antiferromagnetic one to ferromagnetic one. We also report emergence of metallic states through further doping and applying external pressures for this doping induced ferromagnetic state. The realization of ferromagnetic state in Nagaoka–Penn mechanism can paves a way for designing new molecules-based ferromagnets in future.

Published

2021

31. Structural, magnetic and Mössbauer spectroscopic studies of the [Fe(3-bpp)2](CF3COO)2 complex: role of crystal packing leading to an incomplete Fe(<scp>ii</scp>) high spin ⇋ low spin transition

Author

Djulia Onggo, Varimalla Raghavendra Reddy, Hiroki Akutsu, Ashis Bhattacharjee, Yasuhiro Nakazawa, Hari Sutrisno, and Kristian Handoyo Sugiyarto

Subjects

Diffraction, Materials science, Transition temperature, Spin transition, General Chemistry, Condensed Matter Physics, Crystal, chemistry.chemical_compound, Crystallography, chemistry, Mössbauer spectroscopy, Pyridine, General Materials Science, Single crystal, Spin-½

Abstract

Single crystal X-ray diffraction, magnetic and 57Fe Mossbauer spectroscopic studies of a new iron(II)-based spin transition complex – [Fe(3-bpp)2](CF3COO)2 (bpp = 2,6-bis(pyrazol-3-yl)pyridine) are reported. The complex exhibits an incomplete thermal high spin (HS) low spin (LS) transition at ∼226 K which is not associated with any crystallographic transition. Only one of the two crystallographic iron(II) sites undergoes the spin transition, while the other HS site remains invariant of temperature down to 10 K. The origin of the incomplete spin transition is understood by analysing the nature of crystal packing below and above the transition temperature with special attention to the degree of distortion. The present study shows the role of the degree of distortion associated with the cations in the [Fe(3-bpp)2]2+ spin transition complexes.

Published

2021

32. Chiral metal down to 4.2 K - a BDH-TTP radical-cation salt with spiroboronate anion B(2-chloromandelate)2−

Author

Hiroshi Nishimoto, Yasuhiro Nakazawa, Michael Brannan, Tomofumi Kadoya, Lee Martin, Hiroki Akutsu, Toby J. Blundell, and Jun-ichi Yamada

Subjects

chemistry.chemical_classification, Chiral ligand, Metals and Alloys, Salt (chemistry), General Chemistry, Crystal structure, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Metal, Crystallography, chemistry, Radical ion, visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Racemic mixture, Enantiomer, Chirality (chemistry)

Abstract

We report the first example of a chiral BDH-TTP radical-cation salt. Chirality is induced in the structure via the use of a chiral spiroboronate anion where three stereocentres are present, one on each chiral ligand and one on the boron centre. Despite starting from a labile racemic mixture of BS and BR enantiomers, only one enantiomer is present in the crystal lattice. The anions pack in a novel double anion layer which is the thickest anion layer found in a BDH-TTP salt. This material is chiral and shows metallic behaviour down to at least 4.2 K.

Published

2021

33. Enhancements of Superconductivity and Insulating Electrical Resistivity under the Same Uniaxial Strain in a Molecular Conductor

Author

Yuichi Okii, Takashi Yamamoto, Toshio Naito, Kensuke Konishi, Hiroki Akutsu, and Yasuhiro Nakazawa

Subjects

General Physics and Astronomy

Published

2022

34. Enantiopure and racemic radical-cation salts of B(mandelate)

Author

Toby J, Blundell, Jordan R, Lopez, Kathryn, Sneade, John D, Wallis, Hiroki, Akutsu, Yasuhiro, Nakazawa, Simon J, Coles, Claire, Wilson, and Lee, Martin

Abstract

We report the first examples of radical-cation salts of BEDT-TTF with spiroborate anions [B(mandelate)

Published

2022

35. Enantiopure and racemic radical-cation salts of B(mandelate)2− and B(2-chloromandelate)2− anions with BEDT-TTF

Author

Toby J. Blundell, Jordan R. Lopez, Kathryn Sneade, John D. Wallis, Hiroki Akutsu, Yasuhiro Nakazawa, Simon J. Coles, Claire Wilson, and Lee Martin

Subjects

Inorganic Chemistry

Abstract

We report the first examples of radical-cation salts of BEDT-TTF with spiroborate anions [B(mandelate)2]− and [B(2-chloromandelate)2]−, synthesized from either enantiopure or racemic bidentate mandelate or chloromandelate ligands. In the salts prepared using enantiopure ligands only one of two diastereoisomers of the spiroborate anion is incorporated, with the boron centre having the same stereochemistry as the enantiopure ligand. For the racemic salts one racemic pair of spiroborate anions containing an R and an S mandelate ligand is incorporated. In certain solvents helical crystals were obtained when using spiroborate anions with enantiopure ligands. Electrical and magnetic properties, and band structure calculations are reported.

Published

2022

36. Structure and Properties of a New Purely Organic Magnetic Conductor, δ′-(BEDT-TTF)2(PO-CONHCH(cyclopropyl)SO3)·1.7H2O

Author

Akiko Kohno, Scott S. Turner, Yasuhiro Nakazawa, and Hiroki Akutsu

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, Crystallography, chemistry, 010405 organic chemistry, Salt (chemistry), General Chemistry, 010402 general chemistry, 01 natural sciences, Tetrathiafulvalene, 0104 chemical sciences, Ion, Conductor

Abstract

A new bis(ethylenedithio)tetrathiafulvalene (BEDT-TTF)-based salt with an organic magnetic anion, PO-CONHCH(cyclopropyl)SO3−, has been prepared (PO = 2,2,5,5-tetramethyl-3-pyrrolin-1-oxyl free radi...

Published

2020

37. Different electronic states of isomorphous chiral vs. racemic organic conducting salts, β′′-(BEDT-TTF)2(S- and rac-PROXYL-CONHCH2SO3)

Author

Satoshi Yamashita, Akiko Kohno, Scott S. Turner, Hiroki Akutsu, and Yasuhiro Nakazawa

Subjects

Materials science, Point reflection, 02 engineering and technology, Orders of magnitude (numbers), 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Electronic states, Metal, Crystallography, Chemistry (miscellaneous), Electrical resistivity and conductivity, visual_art, Atom, visual_art.visual_art_medium, General Materials Science, 0210 nano-technology, Electronic band structure

Abstract

The chiral and racemic salts β′′-(BEDT-TTF)2(S- and rac-PROXYL-CONHCH2SO3) (S-2 and rac-2) are almost isomorphous apart from a deviation in the C–H bond direction at the chiral centre. Both salts are metallic at room temperature, with similar broad metal-insulator transitions. Band structure calculations of the chiral and racemic salts indicate that both electronic structures are quite similar. However, at 30 K, S-2 has a resistivity that is nearly three orders of magnitude higher than that of rac-2. The results suggest a significant effect of the broken inversion symmetry, due to the positional change of only one atom.

Published

2020

38. Chiral molecular conductor with an insulator–metal transition close to room temperature

Author

Hiroki Akutsu, Jonathan I Short, Songjie Yang, Toby J. Blundell, Yasuhiro Nakazawa, Lee Martin, John D. Wallis, and Sara J. Krivickas

Subjects

Materials science, Condensed matter physics, Metals and Alloys, Insulator (electricity), General Chemistry, Conductivity, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Conductor, Metal, visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Chirality (chemistry)

Abstract

Materials exhibiting both chirality and conductivity do not exist in nature and very few examples have been synthesised. We report here the synthesis of a chiral molecular metal which remains metallic down to at least 4.2 K. This material also exhibits room-temperature switching capabilities with a transition upon cooling below 10 °C.

Published

2020

39. Correlation-driven organic 3D topological insulator with relativistic fermions

Author

Tetsuya Nomoto, Shusaku Imajo, Hiroki Akutsu, Yasuhiro Nakazawa, and Yoshimitsu Kohama

Subjects

Condensed Matter - Strongly Correlated Electrons, Multidisciplinary, Strongly Correlated Electrons (cond-mat.str-el), General Physics and Astronomy, FOS: Physical sciences, General Chemistry, General Biochemistry, Genetics and Molecular Biology

Abstract

Exploring new topological phenomena and functionalities induced by strong electron correlation has been a central issue in modern condensed-matter physics. One example is a topological insulator (TI) state and its functionality driven by the Coulomb repulsion rather than a spin-orbit coupling. Here, we report a "correlation-driven" TI state realized in an organic zero-gap system $\alpha$-(BETS)$_2$I$_3$. The surface metallic state that emerges at low temperatures exhibits characteristic transport properties of a gapless Dirac semimetal, evidencing the presence of a topological surface state in this compound. Moreover, we observe a topological phase switching between the TI state and non-equilibrium Dirac semimetal state by a dc current, which is a unique functionality of a correlation-driven TI state. Our findings demonstrate that correlation-driven TIs are promising candidates not only for practical electronic devices but also as a field for discovering new topological phenomena and phases., Comment: 36 pages including 10 figures

Published

2022

40. Perspectives on Molecular Materials—A Tribute to Professor Peter Day

Author

Scott S. Turner, Lee Martin, Carlos J. Gómez-García, Hiroki Akutsu, and John D. Wallis

Subjects

Chemistry, n/a, Chemistry (miscellaneous), media_common.quotation_subject, Materials Chemistry, Tribute, Grammar school, Art, Molecular materials, QD1-999, Classics, Electronic, Optical and Magnetic Materials, media_common

Abstract

Professor Peter Day FRS was born on 20 August 1938 in Kent (UK) and attended Maidstone Grammar School [...]

Published

2021

41. Exceptionally high temperature spin crossover in amide-functionalised 2,6-bis(pyrazol-1-yl)pyridine iron(ii) complex revealed by variable temperature Raman spectroscopy and single crystal X-ray diffraction

Author

Pierre Le Maguere, Max Attwood, Lee Martin, Scott S. Turner, Hiroki Akutsu, and Toby J. Blundell

Subjects

Inorganic Chemistry, symbols.namesake, Crystallography, Materials science, Differential scanning calorimetry, Spin states, Hydrogen bond, Spin crossover, X-ray crystallography, symbols, Crystal structure, Raman spectroscopy, Single crystal

Abstract

The synthesis of a novel amide-functionalised 2,6-bis(pyrazol-1-yl)pyridine-4-carboxamide ligand (bppCONH2) is described. The complex salts [Fe(bppCONH2)2](BF4)2 and [Fe(bppCONH2)2](ClO4)2 were synthesised and characterised by SQUID magnetometry, differential scanning calorimetry, variable temperature Raman spectroscopy and single crystal X-ray diffraction. DSC measurements of [Fe(bppCONH2)2](BF4)2 indicate a spin-crossover (SCO) transition with T↑ at 481 K and T↓ at 461 K, showing a 20 K hysteresis. DSC for the perchlorate salt shows an SCO transition with T↑ at 459 K and T↓ at 445 K with a 14 K hysteresis. For the BF4− salt analysis of low and high-spin state crystal structures at 101, 290 and 500 K, suggest stabilisation of the low spin state due to the formation of 1D hydrogen-bonded cationic chains. Variable temperature Raman studies of the BF4 salt support the presence of a high temperature SCO. It is speculated that the presence of hysteresis may be attributed to differences in the inter-molecular hydrogen bonding in the low spin and high spin states.

Published

2021

42. First Molecular Superconductor with the Tris(Oxalato)Aluminate Anion, β″-(BEDT-TTF)4(H3O)Al(C2O4)3·C6H5Br, and Isostructural Tris(Oxalato)Cobaltate and Tris(Oxalato)Ruthenate Radical Cation Salts

Author

Yasuhiro Nakazawa, Shusaku Imajo, Toby J. Blundell, Hiroki Akutsu, Michael Brannan, Lee Martin, and Joey Mburu-Newman

Subjects

Tris, Chemistry, Aluminate, Metal ions in aqueous solution, 02 engineering and technology, Crystal structure, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Paramagnetism, Crystallography, chemistry.chemical_compound, Metallate, Radical ion, Chemistry (miscellaneous), Materials Chemistry, Isostructural, 0210 nano-technology, molecular conductor, superconductor, metal, semiconductor, BEDT-TTF, tris(oxalato)metallate

Abstract

Peter Day’s research group reported the first molecular superconductor containing paramagnetic metal ions in 1995, β″-(BEDT-TTF)4(H3O)Fe(C2O4)3·C6H5CN. Subsequent research has produced a multitude of BEDT-TTF-tris(oxalato)metallate salts with a variety of structures and properties, including 32 superconductors to date. We present here the synthesis, crystal structure, and conducting properties of the newest additions to the Day series including the first superconductor incorporating the diamagnetic tris(oxalato)aluminate anion, β″-(BEDT-TTF)4(H3O)Al(C2O4)3·C6H5Br, which has a superconducting Tc of ~2.5 K. β″-(BEDT-TTF)4(H3O)Co(C2O4)3·C6H5Br represents the first example of a β″ phase for the tris(oxalato)cobaltate anion, but this salt does not show superconductivity.

Published

2021

43. Extraordinary $\pi$-Electron Superconductivity Emerging from a Quantum Spin Liquid

Author

Yoshimitsu Kohama, Taichi Terashima, Hiroki Akutsu, Shusaku Imajo, S. Uji, Shiori Sugiura, Yasuhiro Nakazawa, Takayuki Isono, and K. Kindo

Subjects

Superconductivity, Physics, Condensed Matter - Materials Science, Condensed matter physics, Spins, Condensed Matter - Superconductivity, Doping, Electron, Condensed Matter - Strongly Correlated Electrons, Metallic conductivity, Condensed Matter::Superconductivity, Hexagonal lattice, Condensed Matter::Strongly Correlated Electrons, Quantum spin liquid, Critical field

Abstract

Quantum spin liquids (QSLs), in which spins are highly entangled, have been considered a groundwork for generating exotic superconductivity. Despite numerous efforts, superconductivity emerging from QSLs has been unrealized in actual materials due to the difficulties in stabilizing QSL states with metallic conductivity. Recently, an organic compound, $\ensuremath{\kappa}\text{\ensuremath{-}}{(\mathrm{BEDT}\text{\ensuremath{-}}\mathrm{TTF})}_{4}{\mathrm{Hg}}_{2.89}{\mathrm{Br}}_{8}$, with a nearly regular triangular lattice of molecular dimers was recognized as a candidate for doped QSLs. In this study, we report an unusual superconducting phase of $\ensuremath{\kappa}\text{\ensuremath{-}}{(\mathrm{BEDT}\text{\ensuremath{-}}\mathrm{TTF})}_{4}{\mathrm{Hg}}_{2.89}{\mathrm{Br}}_{8}$: unexpectedly large ratios of the upper critical field to the critical temperature ${H}_{\mathrm{c}2}/{T}_{\mathrm{c}}$ in fields not only parallel but also perpendicular to the two-dimensional conducting layers and a very wide region of fluctuating superconductivity above ${T}_{\mathrm{c}}$. Our results reveal that these peculiarities arise from strong electron correlations and possible quantum criticality unique to the doped QSL state, leading to a heavy mass of itinerant carriers and a large superconducting energy gap.

Published

2021

44. New Spin-Crossover Compounds Containing the [Ni(mnt)] Anion (mnt = Maleonitriledithiolate)

Author

Peter N. Horton, Scott S. Turner, Hiroki Akutsu, Volker Schünemann, Simon J. Coles, and Joanna Daniell

Subjects

Pyrazine, Chemistry, Cationic polymerization, spin-crossover, molecular magnets, magnetic materials, molecular materials, Electronic, Optical and Magnetic Materials, Ion, Magnetization, chemistry.chemical_compound, Crystallography, Chemistry (miscellaneous), Spin crossover, Mössbauer spectroscopy, Pyridine, Materials Chemistry, QD1-999, Single crystal

Abstract

Two novel salts containing the anion [Ni(mnt)2]− (mnt = maleonitriledithiolate) have been synthesized. The counter-ions, [Fe(II)(L1 or L2)2], are cationic complexes where L1 and L2 are methylated derivatives of 2,6-bis(pyazolyl)pyridine or pyrazine, which are similar to ligands found in a series of spin-crossover (SCO) complexes. Both salts are characterized by variable temperature single crystal X-ray diffraction and bulk magnetization measurements. Compound 1, [Fe(II)(L1)2][Ni(mnt)2]2 displays an incomplete and gradual SCO up to 300 K, followed by a more rapid increase in the high-spin fraction between 300 and 350 K. Compound 2, [Fe(II)(L2)2][Ni(mnt)2]2.MeNO2, shows a gradual, but more complete SCO response centered at 250 K. For compound 2, the SCO is confirmed by variable temperature Mössbauer spectroscopy. In both cases, the anionic moieties are isolated from each other and so no electrical conductivity is observed.

Published

2021

45. Chiral metal down to 4.2 K - a BDH-TTP radical-cation salt with spiroboronate anion B(2-chloromandelate)

Author

Toby J, Blundell, Michael, Brannan, Hiroshi, Nishimoto, Tomofumi, Kadoya, Jun-Ichi, Yamada, Hiroki, Akutsu, Yasuhiro, Nakazawa, and Lee, Martin

Abstract

We report the first example of a chiral BDH-TTP radical-cation salt. Chirality is induced in the structure via the use of a chiral spiroboronate anion where three stereocentres are present, one on each chiral ligand and one on the boron centre. Despite starting from a labile racemic mixture of BS and BR enantiomers, only one enantiomer is present in the crystal lattice. The anions pack in a novel double anion layer which is the thickest anion layer found in a BDH-TTP salt. This material is chiral and shows metallic behaviour down to at least 4.2 K.

Published

2021

46. Large-Amplitude Thermal Vibration-Coupled Valence Tautomeric Transition Observed in a Conductive One-Dimensional Rhodium-Dioxolene Complex

Author

Minoru Mitsumi, Hiroki Akutsu, Koshiro Toriumi, Haruo Akashi, Yasutaka Kitagawa, Masahiro Hashimoto, Yuji Miyazaki, and Yuuki Komatsu

Subjects

Phase transition, Valence (chemistry), Chemistry, Organic Chemistry, chemistry.chemical_element, General Chemistry, Tautomer, Catalysis, Rhodium, Vibration, Amplitude, X-ray photoelectron spectroscopy, Chemical physics, Thermal, Physics::Atomic and Molecular Clusters

Abstract

The exploration of dynamic molecular crystals is a fascinating theme for materials scientists owing to their fundamental science and potential application to molecular devices. Herein, a one-dimensional (1D) rhodium-dioxolene complex is reported that exhibits drastic changes in properties with the phase transition. X-ray photoelectron spectroscopy (XPS) revealed that the room-temperature (RT) phase is in a mixed-valence state, and therefore, the drastic changes originate from the mixed-valence state appearing in the RT phase. Another notable feature is that the mean square displacements of the rhodium atoms along the 1D chain dramatically increased in the RT phase, indicating a large-amplitude vibration of the Rh-Rh bonds. From these results, a possible mechanism for the appearance of the mixed-valence state in the RT phase was proposed based on the thermal electron transfer from the 1D d-band to the semiquinonato π* orbital coupled with the large-amplitude vibration of the Rh-Rh bonds.

Published

2020

47. Anisotropic Fully-Gapped Superconductivity Possibly Mediated by Charge Fluctuations in a Nondimeric Organic Complex

Author

Masashi Tokunaga, Hiroki Akutsu, K. Kindo, Takeshi Yajima, Shusaku Imajo, Yoshimitsu Kohama, Yasuhiro Nakazawa, and Ryosuke Kurihara

Subjects

Superconductivity, Physics, Condensed matter physics, Strongly Correlated Electrons (cond-mat.str-el), Condensed Matter - Superconductivity, General Physics and Astronomy, Quantum oscillations, FOS: Physical sciences, Charge (physics), Fermi surface, 01 natural sciences, Heat capacity, Superconductivity (cond-mat.supr-con), Condensed Matter - Strongly Correlated Electrons, Pairing, Condensed Matter::Superconductivity, 0103 physical sciences, Organic superconductor, 010306 general physics, Anisotropy

Abstract

We investigate low-temperature electronic properties of the nondimeric organic superconductor $\beta^{\prime\prime}$-(BEDT-TTF)$_4$[(H$_3$O)Ga(C$_2$O$_4$)$_3$]PhNO$_2$. By examining ultrasonic properties, charge disproportionation (CD) without magnetic field dependence is detected below $T_{\rm CD}$$\sim$8~K just above the superconducting critical temperature $T_{\rm c}$$\sim$6~K. From quantum oscillations in high fields, we find variation in the Fermi surface and mass enhancement induced by the CD. Heat capacity studies elucidate that the superconducting gap function is fully gapped in the Fermi surface, but anisotropic with fourfold symmetry. We point out that the pairing mechanism of the superconductivity is possibly dominated by charge fluctuations., Comment: 6 figures

Published

2020

48. Construction of a thermal conductivity measurement system for small single crystals of organic conductors

Author

Satoshi Yamashita, Yasuhiro Nakazawa, Tetsuya Nomoto, Hiroki Akutsu, Alexander I. Krivchikov, and Shusaku Imajo

Subjects

Phase transition, Materials science, Drop (liquid), Analytical chemistry, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 010406 physical chemistry, 0104 chemical sciences, Thermal conductivity measurement, chemistry.chemical_compound, Thermal conductivity, chemistry, Molecule, Physical and Theoretical Chemistry, 0210 nano-technology, Electrical conductor, Tetrathiafulvalene

Abstract

We newly constructed a thermal conductivity measurement system for single crystals of molecular compounds. This system enables us to measure the thermal conductivity of samples with the length of less than 1.0 mm. In order to evaluate the capability of detection of phase transitions occurred in molecule-based materials, we performed the thermal conductivity measurement of single crystals of organic conductors α-(BEDT-TTF)2I3 and κ-(BEDT-TTF)2Cu[N(CN)2]Br, where BEDT-TTF denotes bis(ethylenedithio)tetrathiafulvalene. From the temperature dependence of the thermal conductivity of α-(BEDT-TTF)2I3, we succeeded in observing the metal–insulator transition as a sudden drop of κ(T) at 135 K. In the temperature dependence of thermal conductivity of κ-(BEDT-TTF)2Cu[N(CN)2]Br, we could observe the increment of κ(T) at the metal-superconducting transition (Tc = 11.4 K). These results show that the newly developed system has high performance enough to detect various kinds of phase transitions in small crystals of molecular compounds.

Published

2018

49. A new Ni(dmit)2-based organic magnetic charge-transfer salt, (m-PO-CONH-N-methylpyridinium)[Ni(dmit)2]·CH3CN

Author

Soichi Ito, Tomofumi Kadoya, Shin'ichi Nakatsuji, Jun-ichi Yamada, Hiroki Akutsu, Scott S. Turner, and Yasuhiro Nakazawa

Subjects

chemistry.chemical_classification, Spins, 010405 organic chemistry, Radical, Salt (chemistry), Crystal structure, 010402 general chemistry, 01 natural sciences, Magnetic susceptibility, 0104 chemical sciences, Inorganic Chemistry, Crystallography, chemistry, Ferromagnetism, Mean field theory, Materials Chemistry, Physical and Theoretical Chemistry, Spin (physics)

Abstract

A new Ni(dmit)2-based organic magnetic charge-transfer (CT) salt, (m-PO-CONH-N-methylpyridinium)[Ni(dmit)2]·CH3CN, where PO = 2,2,5,5-Tetramethyl-3-pyrrolin-1-oxyl free radical and dmit = 2-Thioxo-1,3-dithiole-4,5-dithiolate, was obtained, the crystal structure and magnetic properties of which are reported. Magnetic susceptibility of the CT salt obeys a combination of 1D ferromagnetic (1DF) Heisenberg (J1DF = +0.26 K) and Singlet-Triplet (ST) models (JST = -51.2 K) with mean field (MF) approximation (JMF = -6.7 K), suggesting that spins on the PO radicals form 1D ferromagnetic chains and spins on the Ni(dmit)2 monoanions forms spin dimers at low temperature, the latter of which was also confirmed by band calculations.

Published

2018

50. Effects of electron correlations and chemical pressures on superconductivity of β′′ -type organic compounds

Author

Alexander L. Morritt, A Akutsu-Sato, Yasuhiro Nakazawa, Hiroki Akutsu, Shusaku Imajo, and Lee Martin

Subjects

Superconductivity, chemistry.chemical_compound, Materials science, Effective mass (solid-state physics), Electrical resistance and conductance, chemistry, Chemical physics, Pairing, Condensed Matter::Strongly Correlated Electrons, Disproportionation, Electron, Tetrathiafulvalene, Magnetic field

Abstract

We investigate low-temperature electronic states of the series of organic conductors β'' - [bis(ethylenedithio)tetrathiafulvalene] 4[(H3O)M(C2O4)3] G, where M and G represent trivalent metalions and guest organic molecules, respectively. Our structural analyses reveal that the replacement of M and G give rise to systematic change in the cell parameters, especially in the b-axis length, which has a positive correlation with the superconducting transition temperature Tc. Analysis of temperature and magnetic field dependences of the electrical resistance including the Shubnikov–de Haas oscillations elucidates that the variation of charge disproportionation, the effective mass, and the number of itinerant carriers can be systematically explained by the change of the b-axis length. The changes of the transfer integrals induced by stretching/compressing the b axis are confirmed by the band calculation. We discuss that electron correlations in quarter-filled electronic bands lead to charge disproportionation and the possibility of a novel pairing mechanism of superconductivity mediated by charge degrees of freedom.

Published

2019