Your search keyword '"Zhang, Yi-Quan"' showing total 9 results

1. Boosting the mono-axial crystal field in stable high-coordinate Dy(III) single-ion magnets by substitution of the phenoxy axial ligand.

Author

Zhang, Ben, Zhou, Yang, Dong, Chang, Xiang, Yi, Shi, Yanbo, Zhang, Chennan, Yuan, Aihua, Zheng, Shaojun, Li, Zhao-Yang, Zhang, Yi-Quan, Yang, Yong, and Chen, Lei

Subjects

QUANTUM tunneling, SINGLE molecule magnets, MAGNETIC hysteresis, AB-initio calculations, MAGNETS, CRYSTALS

Abstract

Synthesis of air-stable and high-performance single-molecule magnets (SMMs) is challenging. Here, a heptadentate pentapyridyldiamine (BPA-TPA) ligand and fine-tuned axial phenoxy ligands are used to synthesize two triangular dodecahedral Dy(III) complexes [Dy(BPA-TPA)(4-methoxy-PhO)](BPh4)2·3CH2Cl2 (4) and [Dy(BPA-TPA)(2,4-dimethyl-PhO)](BPh4)2·0.85CH2Cl2 (5). Both complexes have high effective barriers exceeding 400 K and magnetic hysteresis up to 8 K, which is ascribed to one strong and short Dy–O bond combined with seven weak Dy–N bonds. Ab initio calculations reveal the thermally activated quantum tunneling of magnetization through the first excited Kramers doublet, due to the presence of a strong axial Dy–O crystal ligand. Substitution of the phenoxy ligand leads to more constrained vibrations, improving the magnetic hysteresis behavior for 5. [ABSTRACT FROM AUTHOR]

Published

2023

2. Single-molecule magnet behaviour in a centrosymmetric dinuclear dysprosium(III) complex: sequential differentiation of triple relaxation pathways.

Author

Song, Xiao-Jiao, Jing, Yu, Feng, Xin, Hu, Zhao-Bo, Kong, Ming, Xue, Xiao-Ming, Zhang, Yi-Quan, and Song, You

Subjects

SINGLE molecule magnets, QUANTUM tunneling, MAGNETIC measurements, DYSPROSIUM, AB-initio calculations, DIPOLE-dipole interactions, INTERMOLECULAR interactions

Abstract

A dinuclear complex with the formula Dy2L2(H2L)Cl2(EtOH)2 (Dy2) has been synthesized by reacting DyCl3·H2O with a ligand H2L (H2L = N,N′-ethylenebis(salicylideneimine)) using ethanol as the solvent. Its crystal structure can be viewed as a dimer of two Dy(III) fragments, where each Dy(III) site shows a N2O6Cl coordination sphere with a pentagonal bipyramid geometry (D5h). Magnetic measurements reveal that Dy2 behaves as a single-ion magnet (SIM) under a zero field. When the field is applied, the ac magnetic susceptibilities show double and triple peaks under high (≥600 Oe) and low (<600 Oe) dc fields, respectively. In contrast to the common double relaxation pathways in SIMs, such multiple and intricate relaxation pathways have not been reported yet in the previous literature. In this work, by experimental analysis of the ac signals, we attribute the three slow relaxation pathways to quantum tunnelling of magnetization (QTM), intermolecular dipole–dipole interaction and spin reversal, respectively. In addition, ab initio calculations are used to elucidate the magnetic behaviours of Dy2. Overall, our work indicates that the interpretation of the relaxation process using double relaxation pathways is incomplete and difficult in previously reported literature. [ABSTRACT FROM AUTHOR]

Published

2022

3. Slow magnetic relaxation in a Dy3 triangle and a bistriangular Dy6 cluster.

Author

Wang, Wen, Shang, Tao, Wang, Juan, Yao, Bin-Ling, Li, Li-Cun, Ma, Yue, Wang, Qing-Lun, Zhang, Yuan-Zhu, Zhang, Yi-Quan, and Zhao, Bin

Subjects

MAGNETIC relaxation, SINGLE molecule magnets, AB-initio calculations, MAGNETIC properties, ACTIVATION energy

Abstract

Two lanthanide single-molecule magnets (SMMs) [Dy3(μ3-OH)(HL-1)3(H2O)3](NO3)2·3H3O (1, H3L-1 = (E)-3-(((8-hydroxyquinolin-2-yl)methylene)amino)propane-1,2-diol) and [Dy6(μ3-OH)4(H2L-2)4(HL-2)2(L-2)2] (2, H3L-2 = (E)-2-hydroxy-N′-(2-hydroxy-3-methoxybenzylidene)benzohydrazide) were synthesized and characterized structurally and magnetically. Complex 1 contains a triangular Dy3 core in which the three Dy3+ ions share a μ3-OH− anion and the deprotonated ligands of (HL-1)2− serve both capping and bridging functions, while 2 displays a centrosymmetric hexanuclear DyIII structure with two similar Dy3 triangular cores ligated by two fully deprotonated (L-2)3− ligands, each of which shares two μ3-OH− anions. All the DyIII ions are eight-coordinated with quasi D2d or C2v symmetry. Magnetic studies reveal that 1 exhibited two-step magnetic relaxation under an applied dc field of 800 Oe, with effective energy barriers of 40.1 and 31.0 K for the slow relaxation (SR) and fast relaxation regimes (FR), respectively. Meanwhile, 2 only showed a tail of slow magnetic relaxation at above 2 K. Ab initio calculations have been carried out to show the nature of their different magnetic properties. [ABSTRACT FROM AUTHOR]

Published

2022

4. Reversible on–off switching of Dy(III) single-molecule magnets via single-crystal-to-single-crystal transformation.

Author

Xi, Jing, Cen, Peipei, Guo, Yan, Li, Yuzhu, Qin, Yuanyuan, Zhang, Yi-Quan, Song, Weiming, and Liu, Xiangyu

Subjects

SINGLE molecule magnets, MAGNETIC control, AB-initio calculations, MAGNETIC properties, MAGNETIC relaxation

Abstract

While the interest in single-molecule magnets (SMMs) lies in their potential applications in information storage and quantum computing, the switching of their slow magnetic relaxation associated with dynamic crystal-to-crystal transformation is insufficiently exploited. Herein, three pentagonal-bipyramidal (PBP) Dy(III) complexes, [Dy(Bcpen)(Cl)3] (1), [Dy(Bcpen)(OPhCl2NO2)3] (2) and [Dy(Bcpen)(OPhCl2NO2)3]·0.5CH3CN (2·CH3CN), are successfully assembled, and structurally and magnetically studied (Bcpen = N,N-bis(4-chloro-2-methylenepyridinyl) ethylenediamine and Cl2NO2PhOH = 2,6-dichloro-4-nitrophenol). The molecular characteristics and magnetic properties of complexes 2 and 2·CH3CN, constructed with the motivation of modulating a magnetic switch by external stimuli, are systematically explored. Dramatically, 2 and 2·CH3CN can mutually transform through reversible single-crystal-to-single-crystal (SCSC) conversion associated with the capture and release of guest CH3CN molecules, resulting in an infrequent on/off switching of PBP Dy(III) molecule-based magnets. Further measurements on the desolvated and resolvated samples, complexes 2-re and 2·CH3CN-re, confirm the fascinating transformation processes. The magneto-structural relationship has been rationally investigated and discussed with ab initio calculations as well. [ABSTRACT FROM AUTHOR]

Published

2022

5. Modulating the slow magnetic relaxation of a mononuclear Dy(III) single-molecule magnet via a magnetic field and dilution effects.

Author

Cen, Peipei, He, Zixin, Ding, Runmei, Yang, Huifang, Li, Li, Zhang, Yi-Quan, Li, Yonghong, Tian, Danian, and Liu, Xiangyu

Subjects

SINGLE molecule magnets, MAGNETIC field effects, MAGNETIC relaxation, AB-initio calculations, MAGNETIC measurements, MAGNETIC anisotropy

Abstract

A β-diketonate mononuclear dysprosium complex, with the formula [Dy(dpq)(BTFA)3] (1), has been prepared via self-assembly between 3-benzoyl-1,1,1-trifluoroacetone (BTFA) and dipyrido [3,2-d:2′,3′-f]quinoxaline (dpq) ligands. The crystallographic data reveal that the central Dy(III) ion is eight-coordinated by six oxygen atoms from three BTFA ligands and two N atoms from auxiliary dpq ligands, forming an approximately square-antiprismatic (SAP) coordination geometry with a D4d axial symmetry. Magnetic measurements point out that complex 1 exhibits single-molecule magnet (SMM) behaviours with an anisotropy barrier of 45.65 K under a zero direct-current (dc) field. With an applied dc field of 1200 Oe, the quantum tunnelling of the magnetization (QTM) is suppressed in 1 with an enhanced effective barrier of 178.42 K. A diamagnetic Y(III) analogue [Y(dpq)(BTFA)3] (2) and diluted species [Dy0.06Y0.94(BTFA)3(dpq)] (1@Y) were constructed to further perform the dilution experiment. The results unveil that the SMM behaviour observed in 1 is of molecular origin and is related to the single-ion magnetic behaviour of Dy(III) itself, even though the elimination of the dipolar and intermolecular interactions can modestly slow down the magnetic relaxation rate. The relaxation mechanisms and magneto-structure relationship are rationally discussed by ab initio calculations as well. [ABSTRACT FROM AUTHOR]

Published

2021

6. Slow Magnetic Relaxation in a [Na2Dy4] Complex and Coexistence of Multiple Metal Rings.

Author

Yang, Hua, Zhang, Yi‐Quan, Sun, Lei, Li, Da‐Cheng, Zeng, Su‐Yuan, Li, Yun‐Wu, Yang, Yan, and Dou, Jian‐Min

Subjects

*MAGNETIC relaxation, *SINGLE molecule magnets, *MAGNETIC measurements, *AB-initio calculations, *MAGNETIC moments, *YTTERBIUM, *RARE earth metals

Abstract

Three rare isostructural heterometallic complexes [Na2{Ln4(μ3‐OH)2(ppt)4(Hppt)2(OAc)2}(DMF)4] ⋅ xH2O (H2ppt=3‐(2‐hydroxyphenyl)‐5‐(pyrazin‐2‐yl)‐1,2,4‐triazole, x=2.5, Ln=Dy (1); x=2, Ln=Er (2); x=0, Ln=Yb (3)) have been obtained. The structural analysis displayed that two NaI and four LnIII ions were linked together through N−N groups and O atoms to form a metallmacrocycle with the connectivity pattern [Dy−O−Na−N−N−Dy−O]2. Such cases possess rare hexametallic ring, which further displays one tetrametallic and two trimetallic cyclic units. Magnetic measurements reveal single‐molecule magnet (SMM) behavior for 1 with the effective energy barrier of 51.6 K and pre‐exponential factor of 6.16×10−6 s deduced from frequency‐dependent magnetic susceptibilities. Ab initio calculations prove that the weak ferromagnetic coupling mainly originats from the dipolar interaction. The transversal magnetic moments in the ground Kramers could suppressed the quantum tunneling of magnetization. [ABSTRACT FROM AUTHOR]

Published

2021

7. Regulating the magnetic dynamics of mononuclear β-diketone Dy(III) single-molecule magnets through the substitution effect on capping N-donor coligands.

Author

Xi, Jing, Ma, Xiufang, Cen, Peipei, Wu, Yuewei, Zhang, Yi-Quan, Guo, Yan, Yang, Jinhui, Chen, Lei, and Liu, Xiangyu

Subjects

SINGLE molecule magnets, AB-initio calculations, POLAR effects (Chemistry), ACTIVATION energy, MAGNETIC properties, MAGNETIC anisotropy, ARABINOXYLANS

Abstract

A series of five mononuclear β-diketonate-Dy(III) complexes, with formulas Dy(ntfa)3(Br-bpy) (1), Dy(ntfa)3(Br2-bpy) (2), Dy(ntfa)3(5,5-(CH3)2-bpy) (3), Dy(ntfa)3(4,4-((CH3)3)2-bpy) (4) and Dy(ntfa)3(4,4-(CH3)2-bpy) (5) (ntfa = 4,4,4-trifluoro-1-(2-naphthyl)-1,3-butanedione, Br-bpy = 5-bromo-2,2′-bipyridine, Br2-bpy = 4,4′-dibromo-2,2′-bipyridine, 5,5-(CH3)2-bpy = 5,5′-di-methyl-2,2′-bipyridine, 4,4-((CH3)3)2-bpy = 4,4′-di-tert-butyl-2,2′-bipyridine, and 4,4-(CH3)2-bpy = 4,4′-di-methyl-2,2′-bipyridine), have been prepared by altering the capping N-donor coligands. Dy(III) ions in all complexes possess N2O6 octa-coordinated environments, displaying a distorted square antiprismatic D4d symmetry in complexes 1–4, as well as a triangular dodecahedron D2d symmetry in 5. Magnetic investigations evidence the SIM behavior in the five complexes with the energy barriers (Ueff) of 104.19 K (1), 122.93 K (2), 84.20 K (3), 64.16 K (4) and 80.23 K (5) under zero applied dc field. The potential QTM effects in the title complexes are successfully suppressed in the presence of the extra applied fields. The crystal field parameters and orientations of the magnetic easy axes were obtained from the simulation of the magnetic data and the electrostatic model calculation. The distinct electronic effects originating from the subtle changes of the substituents on the capping N-donor coligands induce varying coordination microenvironments and geometries on the Dy(III) sites, further drastically impacting the overall magnetic properties of the title complexes. The disparities of the uniaxial anisotropy and the magnetic dynamics for 1–5 have been elucidated by ab initio calculations as well. [ABSTRACT FROM AUTHOR]

Published

2021

8. Switchable slow relaxation of magnetization in photochromic dysprosium(III) complexes manipulated by a dithienylethene ligand.

Author

Kong, Ming, Feng, Xin, Li, Jing, Wang, Jia, Zhang, Yi-Quan, and Song, You

Subjects

SINGLE molecule magnets, LIGANDS (Chemistry), PHOTOCHROMISM, MAGNETIC anisotropy, AB-initio calculations, MAGNETIZATION, DYSPROSIUM

Abstract

The photochromic and magnetic properties of two dithienylethene (DTE)-based complexes, [Dy(NO3)3(Lo)2(MeOH)] (1-o) and [Dy(NO3)3(Lo)3] (2-o) (Lo = 4,5-bis(2,5-dimethylthiophen-3-yl)-1,3-dimethyl-1,3-dihydro-2H-imidazol-2-one), were experimentally studied in detail with the help of theoretical calculations. Both complexes exhibit an instantaneous and strong reversible photochromic response to UV/Vis irradiation, as evidenced from spectroscopic tests, and complex 1-o behaves as a typical field-induced single-molecule magnet (SMM). By controlling the reaction ratio of Lo and Dy(NO)3, Lo replacing a coordinated methanol molecule in 1-o results in the production of complex 2-o, whose single-molecule behavior is off. Upon irradiation with 254 nm light, the SMM properties of 1-o deteriorate with the energy barrier decreasing from 68.1 to 44.3 K while the magnetic dynamics of complex 2-o shows no response to irradiation. Ab initio calculations reveal that the quantum tunnelling of magnetization between the ground Kramers doublets in 2-o is quite strong, leading to the disappearance of SMM behavior. For complex 1-o, the strong magnetic anisotropy and moderate quantum tunnelling of magnetization relative to 2-o give rise to an appropriate energy barrier for SMM. On the other hand, the decrease in energy barriers for 1-o after irradiation results from the weakening of magnetic anisotropy, which is caused by the stronger charge delocalization of the coordinated carbonyl oxygen atom of the ring-closed DTE ligand. By regulating the reactant ratio, two photochromic DTE-based Dy(III) complexes are obtained and the SMM properties of complex 1-o can be tuned by the light-induced isomerization of the dithienylethene ligand. [ABSTRACT FROM AUTHOR]

Published

2020

9. A Dy(III) Fluorescent Single-Molecule Magnet Based on a Rhodamine 6G Ligand.

Author

Miao, Lin, Liu, Mei-Jiao, Ding, Man-Man, Zhang, Yi-Quan, and Kou, Hui-Zhong

Subjects

SINGLE molecule magnets, AB-initio calculations, MAGNETIC measurements, BOND angles, MAGNETIC relaxation

Abstract

The complexes of lanthanide metals, especially dysprosium, can generally exhibit excellent magnetic properties. By means of modifying ligands, dual functions or even multi-functions can be achieved. Here, we synthesized an eight-coordinate Dy(III) complex 1, [Dy(HL-o)2(MeOH)2](ClO4)3·4.5MeOH, which is single-molecule magnet (SMM), and the introduction of the rhodamine 6G chromophore in the ring-opened ligand HL-o realizes ligand-centered fluorescence in addition to SMM. Magnetic measurements and ab initio calculations indicate that the magnetic relaxation for complex 1 should be due to the Raman relaxation process. Studies on magneto-structural correlationship of the rhodamine salicylaldehyde hydrazone Dy(III) complexes show that the calculated energy of the first Kramers Doublet (EKD1) is basically related to the Ophenoxy-Dy-Ophenoxy bond angle, i.e., the larger Ophenoxy-Dy-Ophenoxy bond angle corresponds to a larger EKD1. [ABSTRACT FROM AUTHOR]

Published

2021