Costes Jean Pierre, Titos-Padilla Silvia, Oyarzabal Itziar, Gupta Tulika, Duhayon Carine, Rajaraman Gopalan, Colacio Enrique
Laboratoire de Chimie de Coordination, 205, route de Narbonne, Toulouse, 31077, France.
Departamento de Química Inorgánica, Facultad de Ciencias, Universidad de Granada , Av. Fuentenueva S/N, 18071 Granada ( Spain ).
Inorg Chem. 2016 May 2;55(9):4428-40. doi: 10.1021/acs.inorgchem.6b00228. Epub 2016 Apr 14.
The new dinuclear Zn(II)-Dy(III) and trinuclear Zn(II)-Dy(III)-Zn(II) complexes of formula (LZnBrDy(ovan) (NO3)(H2O)·0.5(MeOH) (1) and (L(1)ZnBr)2Dy(MeOH)2 (3) (L and L(1) are the dideprotonated forms of the N,N'-2,2-dimethylpropylenedi(3-methoxysalicylideneiminato and 2-{(E)-[(3-{[(2E,3E)-3-(hydroxyimino)butan-2-ylidene ]amino}-2,2-dimethylpropyl)imino]methyl}-6-methoxyphenol Schiff base compartmental ligands, respectively) have been prepared and magnetostructurally characterized. The X-ray structure of 1 indicates that the Dy(III) ion exhibits a DyO9 coordination sphere, which is made from four O atoms coming from the compartmental ligand (two methoxy terminal groups and two phenoxido bridging groups connecting Zn(II) and Dy(III) ions), other four atoms belonging to the chelating nitrato and ovanillin ligands, and the last one coming to the coordinated water molecule. The structure of 3 shows the central Dy(III) ion surrounded by two L(1)Zn units, so that the Dy(III) and Zn(II) ions are linked by phenoxido/oximato bridging groups. The Dy ion is eight-coordinated by the six O atoms afforded by two L(1) ligands and two O atoms coming from two methanol molecules. Alternating current (AC) dynamic magnetic measurements of 1, 3, and the previously reported dinuclear [LZnClDy(thd)2] (2) complex (where thd = 2,2,6,6-tetramethyl-3,5-heptanedionato ligand) indicate single molecule magnet (SMM) behavior for all these complexes with large thermal energy barriers for the reversal of the magnetization and butterfly-shaped hysteresis loops at 2 K. Ab initio calculations on 1-3 show a pure Ising ground state for all of them, which induces almost completely suppressed quantum tunnelling magnetization (QTM), and thermally assisted quantum tunnelling magnetization (TA-QTM) relaxations via the first excited Kramers doublet, leading to large energy barriers, thus supporting the observation of SMM behavior. The comparison between the experimental and theoretical magnetostructural data for 1-3 has allowed us to draw some conclusions about the influence of ligand substitution around the Dy(III) on the SMM properties. Finally, these SMMs exhibit metal- and ligand-centered dual emissions in the visible region, and, therefore, they can be considered as magnetoluminescent bifunctional molecular materials.
已制备出式为(LZnBrDy(ovan)(NO₃)(H₂O)·0.5(MeOH) (1)和(L(1)ZnBr)₂Dy(MeOH)₂ (3)的新型双核Zn(II)-Dy(III)和三核Zn(II)-Dy(III)-Zn(II)配合物(L和L(1)分别是N,N'-2,2-二甲基亚丙基二(3-甲氧基水杨醛亚胺基)和2-{[(E)-[(3-{[(2E,3E)-3-(羟基亚氨基)丁烷-2-亚基]氨基}-2,2-二甲基丙基)亚氨基]甲基}-6-甲氧基苯酚席夫碱分隔配体的二去质子化形式),并对其进行了磁结构表征。1的X射线结构表明,Dy(III)离子呈现出一个DyO₉配位球,它由来自分隔配体的四个O原子(两个甲氧基端基和连接Zn(II)和Dy(III)离子的两个苯氧基桥基)、属于螯合硝酸根和香草醛配体的另外四个原子以及来自配位水分子的最后一个原子组成。3 的结构显示中心Dy(III)离子被两个L(1)Zn单元包围,因此Dy(III)和Zn(II)离子通过苯氧基/肟基桥基相连。Dy离子由两个L(1)配体提供 的六个O原子和来自两个甲醇分子的两个O原子八配位。对1、3以及先前报道的双核[LZnClDy(thd)₂] (2)配合物(其中thd = 2,2,6,6-四甲基-3,5-庚二酮配体)进行的交流(AC)动态磁测量表明,所有这些配合物都表现出单分子磁体(SMM)行为,在2 K时具有用于反转磁化的大热能垒和蝶形磁滞回线。对1 - 3进行的从头算计算表明它们都具有纯伊辛基态,这几乎完全抑制了量子隧穿磁化(QTM)以及通过第一激发克莱默斯二重态的热辅助量子隧穿磁化(TA - QTM)弛豫,从而导致大的能垒,因此支持了SMM行为的观察结果。对1 - 3的实验和理论磁结构数据进行比较,使我们能够得出一些关于Dy(III)周围配体取代对SMM性质影响的结论。最后,这些SMM在可见光区域表现出以金属和配体为中心的双重发射,因此,它们可被视为磁光双功能分子材料。
