Your search keyword '"Chen, Yan"' showing total 12 results

1. Spin‐State Control in Dysprosium(III) Metallacrown Magnets via Thioacetal Modification.

Author

Deng, Wei, Wu, Si‐Guo, Ruan, Ze‐Yu, Gong, Ya‐Ping, Du, Shan‐Nan, Wang, Hai‐Ling, Chen, Yan‐Cong, Zhang, Wei‐Xiong, Liu, Jun‐Liang, and Tong, Ming‐Liang

Subjects

SINGLE molecule magnets, MAGNETS, DYSPROSIUM, AB-initio calculations, MOLECULAR interactions, SUPERCONDUCTING magnets

Abstract

Integrating controllable spin states into single‐molecule magnets (SMMs) enables precise manipulation of magnetic interactions at a molecular level, but remains a synthetic challenge. Herein, we developed a 3d–4f metallacrown (MC) magnet [DyNi5(quinha)5(Clsal)2(py)8](ClO4) ⋅ 4H2O (H2quinha=quinaldichydroxamic acid, HClsal=5‐chlorosalicylaldehyde) wherein a square planar NiII is stabilized by chemical stacking. Thioacetal modification was employed via post‐synthetic ligand substitutions and yielded [DyNi5(quinha)5(Clsaldt)2(py)8](ClO4) ⋅ 3H2O (HClsaldt=4‐chloro‐2‐(1,3‐dithiolan‐2‐yl)phenol). Thanks to the additional ligations of thioacetal onto the NiII site, coordination‐induced spin state switching (CISSS) took place with spin state altering from low‐spin S=0 to high‐spin S=1. The synergy of CISSS effect and magnetic interactions results in distinct energy splitting and magnetic dynamics. Magnetic studies indicate prominent enhancement of reversal barrier from 57 cm−1 to 423 cm−1, along with hysteresis opening and an over 200‐fold increment in coercive field at 2 K. Ab initio calculations provide deeper insights into the exchange models and rationalize the relaxation/tunnelling pathways. These results demonstrate here provide a fire‐new perspective in modulating the magnetization relaxation via the incorporation of controllable spin states and magnetic interactions facilitated by the CISSS approach. [ABSTRACT FROM AUTHOR]

Published

2024

2. Aggregation‐induced suppression of quantum tunneling by manipulating intermolecular arrangements of magnetic dipoles.

Author

Deng, Wei, Du, Shan‐Nan, Ruan, Ze‐Yu, Zhao, Xiao‐Jun, Chen, Yan‐Cong, Liu, Jun‐Liang, and Tong, Ming‐Liang

Subjects

MAGNETIC dipoles, SINGLE molecule magnets, DIPOLE interactions, MAGNETIC relaxation, QUANTUM tunneling, INTERMOLECULAR interactions, HEMODILUTION

Abstract

The relaxation time under zero field reflects the memory retention capabilities of single‐molecule magnets (SMMs) when used as storage devices. Intermolecular magnetic dipole interaction is ubiquitous in aggregates of magnetic molecules and can greatly influence relaxation times. However, such interaction is often considered harmful and challenging to manipulate in molecular solids, especially for high‐performance lanthanide single‐ion magnets (SIMs). By an elaborately designed combination of ion pairing and hydrogen bonding, we have synthesized two pseudo‐D5h SIMs with supramolecular arrangements of magnetic dipoles in staggered and side‐by‐side patterns, the latter of which exhibits a 104‐fold slower zero‐field relaxation time at 2 K. Intriguingly, the side‐by‐side complex exhibits a significantly accelerated magnetic relaxation upon diamagnetic dilution, contrary to the general trend observed in the staggered complex. This strongly reveals the presence of aggregation‐induced suppression of quantum tunneling in a side‐by‐side arrangement, which has not been observed in mononuclear SMMs. By leveraging ion‐pairing aggregation and converting to a side‐by‐side pattern, this study successfully demonstrates an approach to transform a harmful intermolecular dipole interaction into a beneficial one, achieving a τQTM of 980 s ranking among the best‐performance SMMs. [ABSTRACT FROM AUTHOR]

Published

2024

3. Magnetization Dynamics on Isotope‐Isomorphic Holmium Single‐Molecule Magnets.

Author

Liu, Yang, Ho, Le Tuan Anh, Huang, Guo‐Zhang, Chen, Yan‐Cong, Ungur, Liviu, Liu, Jun‐Liang, and Tong, Ming‐Liang

Subjects

SINGLE molecule magnets, NUCLEAR spin, HOLMIUM, MAGNETIZATION, HYPERFINE structure

Abstract

Here we reported the deuteration of the metal‐binding equatorial water molecules in a reported HoIII single‐molecule magnet (SMM) with pentagonal‐bipyramidal geometry, from [Ho(CyPh2PO)2(H2O)5]3+ to [Ho(CyPh2PO)2(D2O)5]3+. The hyperfine structures originating from the nuclear spin of 165HoIII can be clearly observed. Moreover, the resulting magnetization dynamics revealed the switch of the relative relaxation rates for the two isotope‐isomorphic complexes—respectively faster/slower at low/high temperature. The noticeable isotope effect arises from not only the paramagnetic metal center but also the diamagnetic ligands, which can be explained by the ab initio calculated tunnel splitting and the involvement of the super‐hyperfine interaction related to the difference in the nuclear spin number of protium (1H, I=1/2) and deuterium (2H, I=1). [ABSTRACT FROM AUTHOR]

Published

2021

4. Opening Magnetic Hysteresis by Axial Ferromagnetic Coupling: From Mono‐Decker to Double‐Decker Metallacrown.

Author

Wang, Jin, Li, Quan‐Wen, Wu, Si‐Guo, Chen, Yan‐Cong, Wan, Rui‐Chen, Huang, Guo‐Zhang, Liu, Yang, Liu, Jun‐Liang, Reta, Daniel, Giansiracusa, Marcus J., Wang, Zhen‐Xing, Chilton, Nicholas F., and Tong, Ming‐Liang

Subjects

SINGLE molecule magnets, MAGNETIC relaxation, REMANENCE, ACTIVATION energy, MAGNETIZATION, MAGNETIC hysteresis, MAGNETIC anisotropy

Abstract

Combining Ising‐type magnetic anisotropy with collinear magnetic interactions in single‐molecule magnets (SMMs) is a significant synthetic challenge. Herein we report a Dy[15‐MCCu‐5] (1‐Dy) SMM, where a DyIII ion is held in a central pseudo‐D5h pocket of a rigid and planar Cu5 metallacrown (MC). Linking two Dy[15‐MCCu‐5] units with a single hydroxide bridge yields the double‐decker {Dy[15‐MCCu‐5]}2 (2‐Dy) SMM where the anisotropy axes of the two DyIII ions are nearly collinear, resulting in magnetic relaxation times for 2‐Dy that are approximately 200 000 times slower at 2 K than for 1‐Dy in zero external field. Whereas 1‐Dy and the YIII‐diluted Dy@2‐Y analogue do not show remanence in magnetic hysteresis experiments, the hysteresis data for 2‐Dy remain open up to 6 K without a sudden drop at zero field. In conjunction with theoretical calculations, these results demonstrate that the axial ferromagnetic Dy–Dy coupling suppresses fast quantum tunneling of magnetization (QTM). The relaxation profiles of both complexes curiously exhibit three distinct exponential regimes, and hold the largest effective energy barriers for any reported d–f SMMs up to 625 cm−1. [ABSTRACT FROM AUTHOR]

Published

2021

5. A Dysprosium Metallocene Single-Molecule Magnet Functioning at the Axial Limit.

Author

Guo, Fu‐Sheng, Day, Benjamin M., Chen, Yan‐Cong, Tong, Ming‐Liang, Mansikkamäki, Akseli, and Layfield, Richard A.

Subjects

SINGLE molecule magnets, METALLOCENES, CATIONS, LIGANDS (Chemistry), TEMPERATURE effect, MAGNETIC anisotropy

Abstract

Abstraction of a chloride ligand from the dysprosium metallocene [(Cpttt)2DyCl] ( 1Dy Cpttt=1,2,4-tri( tert-butyl)cyclopentadienide) by the triethylsilylium cation produces the first base-free rare-earth metallocenium cation [(Cpttt)2Dy]+ ( 2Dy) as a salt of the non-coordinating [B(C6F5)4]− anion. Magnetic measurements reveal that [ 2Dy][B(C6F5)4] is an SMM with a record anisotropy barrier up to 1277 cm−1 (1837 K) in zero field and a record magnetic blocking temperature of 60 K, including hysteresis with coercivity. The exceptional magnetic axiality of 2Dy is further highlighted by computational studies, which reveal this system to be the first lanthanide SMM in which all low-lying Kramers doublets correspond to a well-defined MJ value, with no significant mixing even in the higher doublets. [ABSTRACT FROM AUTHOR]

Published

2017

6. Hyperfine-Interaction-Driven Suppression of Quantum Tunneling at Zero Field in a Holmium(III) Single-Ion Magnet.

Author

Chen, Yan ‐ Cong, Liu, Jun ‐ Liang, Wernsdorfer, Wolfgang, Liu, Dan, Chibotaru, Liviu F., Chen, Xiao ‐ Ming, and Tong, Ming ‐ Liang

Subjects

*HOLMIUM ions, *QUANTUM tunneling composites, *HYPERFINE interactions, *PHOSPHINE oxides, *SINGLE molecule magnets

Abstract

An extremely rare non-Kramers holmium(III) single-ion magnet (SIM) is reported to be stabilized in the pentagonal-bipyramidal geometry by a phosphine oxide with a high energy barrier of 237(4) cm−1. The suppression of the quantum tunneling of magnetization (QTM) at zero field and the hyperfine structures originating from field-induced QTMs can be observed even from the field-dependent alternating-current magnetic susceptibility in addition to single-crystal hysteresis loops. These dramatic dynamics were attributed to the combination of the favorable crystal-field environment and the hyperfine interactions arising from 165Ho ( I=7/2) with a natural abundance of 100 %. [ABSTRACT FROM AUTHOR]

Published

2017

7. CuIIGdIII Cryogenic Magnetic Refrigerants and Cu8Dy9 Single-Molecule Magnet Generated by In Situ Reactions of Picolinaldehyde and Acetylpyridine: Experimental and Theoretical Study.

Author

Liu, Jun‐Liang, Lin, Wei‐Quan, Chen, Yan‐Cong, Gómez‐Coca, Silvia, Aravena, Daniel, Ruiz, Eliseo, Leng, Ji‐Dong, and Tong, Ming‐Liang

Subjects

CRYOGENICS, MAGNETIC cooling, SINGLE molecule magnets, ALDEHYDES, PYRIDINE, EXPERIMENTAL design

Abstract

A series of heterometallic [LnIII xCuII y] complexes, [Gd2Cu2] n ( 1), [Gd4Cu8] ( 2), [Ln9Cu8] (Ln=Gd, 3⋅Gd; Ln=Dy, 3⋅Dy), were successfully synthesized by a one-pot route at room temperature with three kinds of in situ carbonyl-related reactions: Cannizzaro reaction, aldol reaction, and oxidation. This strategy led to dysprosium analogues that behaved as single-molecule magnets (SMMs) and gadolinium analogues that showed significant magnetocaloric effect (MCE). In this study a numerical DFT approach is proposed by using pseudopotentials to calculate the exchange coupling constants in three polynuclear [Gd xCu y] complexes; with these values exact diagonalization or quantum Monte Carlo simulations have been performed to calculate the variation of the magnetic entropy involved in the MCE. For the [Dy9Cu8] complexes, local magnetic properties of the DyIII centers have been determined by using the CASSCF+RASSI method. [ABSTRACT FROM AUTHOR]

Published

2013

8. Multifunctional DyIII4 Cluster Exhibiting White-Emitting, Ferroelectric and Single-Molecule Magnet Behavior.

Author

Guo, Peng‐Hu, Liu, Jun‐Liang, Jia, Jian‐Hua, Wang, Jing, Guo, Fu‐Sheng, Chen, Yan‐Cong, Lin, Wei‐Quan, Leng, Ji‐Dong, Bao, Ding‐Hua, Zhang, Xu‐Dong, Luo, Jun‐Hua, and Tong, Ming‐Liang

Subjects

SINGLE molecule magnets, DYSPROSIUM, MAGNETIC anisotropy, MOLECULAR structure, MOMENTUM (Mechanics)

Abstract

Multifunctional material: A remarkable case of a single‐molecule magnet that demonstrates white‐light emission and ferroelectricity was observed in a butterfly‐shaped chiral DyIII4 cluster, [Dy4(μ‐bpt)4(μ3‐OH)2(μ‐OMe)2(NO3)4]⋅3 MeOH (bpt=3,5‐bis(pyridin‐2‐yl)‐1,2,4‐trizolate, see figure). [ABSTRACT FROM AUTHOR]

Published

2013

9. Inside Cover: Magnetization Dynamics on Isotope‐Isomorphic Holmium Single‐Molecule Magnets (Angew. Chem. Int. Ed. 52/2021).

Author

Liu, Yang, Ho, Le Tuan Anh, Huang, Guo‐Zhang, Chen, Yan‐Cong, Ungur, Liviu, Liu, Jun‐Liang, and Tong, Ming‐Liang

Subjects

SINGLE molecule magnets, MAGNETIZATION, HOLMIUM, HYPERFINE interactions

Abstract

Hyperfine interaction, isotope effect, magnetization dynamics, single-molecule magnets, super-hyperfine interaction Inside Cover: Magnetization Dynamics on Isotope-Isomorphic Holmium Single-Molecule Magnets (Angew. Keywords: hyperfine interaction; isotope effect; magnetization dynamics; single-molecule magnets; super-hyperfine interaction EN hyperfine interaction isotope effect magnetization dynamics single-molecule magnets super-hyperfine interaction 26870 26870 1 12/15/21 20211220 NES 211220 B Nuclear-spin driven relaxation b collaborating with the ligands in lanthanide single molecule magnets (SMMs) remains ambiguous. [Extracted from the article]

Published

2021

10. Innentitelbild: Magnetization Dynamics on Isotope‐Isomorphic Holmium Single‐Molecule Magnets (Angew. Chem. 52/2021).

Author

Liu, Yang, Ho, Le Tuan Anh, Huang, Guo‐Zhang, Chen, Yan‐Cong, Ungur, Liviu, Liu, Jun‐Liang, and Tong, Ming‐Liang

Subjects

SINGLE molecule magnets, MAGNETIZATION, HOLMIUM, HYPERFINE interactions

Abstract

Keywords: hyperfine interaction; isotope effect; magnetization dynamics; single-molecule magnets; super-hyperfine interaction EN hyperfine interaction isotope effect magnetization dynamics single-molecule magnets super-hyperfine interaction 27074 27074 1 12/15/21 20211220 NES 211220 B Das Zusammenwirken b von kernspingetriebener Relaxation und den Liganden in Lanthanoid-Einzelmolekülmagneten (SMMs) ist nicht vollständig geklärt. Hyperfine interaction, isotope effect, magnetization dynamics, single-molecule magnets, super-hyperfine interaction Innentitelbild: Magnetization Dynamics on Isotope-Isomorphic Holmium Single-Molecule Magnets (Angew. [Extracted from the article]

Published

2021

11. Corrigendum: A Dysprosium Metallocene Single‐Molecule Magnet Functioning at the Axial Limit.

Author

Guo, Fu‐Sheng, Day, Benjamin M., Chen, Yan‐Cong, Tong, Ming‐Liang, Mansikkamäki, Akseli, and Layfield, Richard A.

Subjects

SINGLE molecule magnets, DYSPROSIUM, DATA libraries, DYSPROSIUM compounds, LOCAL delivery services, SUPERCONDUCTING magnets, MAGNETIC anisotropy

Published

2020

12. Berichtigung: A Dysprosium Metallocene Single‐Molecule Magnet Functioning at the Axial Limit.

Author

Guo, Fu‐Sheng, Day, Benjamin M., Chen, Yan‐Cong, Tong, Ming‐Liang, Mansikkamäki, Akseli, and Layfield, Richard A.

Subjects

SINGLE molecule magnets, DYSPROSIUM, DATA libraries, LOCAL delivery services

Published

2020