Theoretical Studies on Hexanuclear [M-3(mu(3)-O/OH)](2) (M = Fe(III), Mn(III), and Ni(II)) Clusters: Magnetic Exchange, Magnetic Anisotropy, and Magneto-Structural Correlations

Singh Mukesh Kumar; Rajaraman Gopalan

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Theoretical Studies on Hexanuclear [M-3(mu(3)-O/OH)](2) (M = Fe(III), Mn(III), and Ni(II)) Clusters: Magnetic Exchange, Magnetic Anisotropy, and Magneto-Structural Correlations

机译：己克核[M-3（MU（3）-O / OH）]（2）（M = Fe（III），Mn（III）和Ni（II））簇的理论研究：磁交换，磁各向异性和磁结构相关性

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Controlling spin Hamiltonian parameters such as magnetic exchange and magnetic anisotropy of polynuclear clusters is of great interest in the area of single molecule magnets (SMMs). Among large polynuclear clusters, hexanuclear clusters offer the best compromise in terms of size as they are often rigid, solution stable, and chemically amenable. The {M602} core is one of the common architectures known for many hexanuclear clusters and generally reported to possess a diamagnetic S-T = 0 spin ground state, barring a few exceptions. In these clusters, there are several open questions that are poorly understood: (a) What controls the nature of magnetic exchange, which in turn dictates the ground state spin values? (b) For clusters possessing a nonzero spin ground state, what dictates the magnetic anisotropy? Here, using density functional methods, we have attempted to shed light on these two question by evaluating the exchange coupling constants in [(Fe6O2)-O-III(OH)(2){(C4N2H2SMe)(2)C(OH)O}(2)((BuCO2)-Bu-t)(10)] (1), [Fe-6(III)(O)(2)(O2CH2) ((O2CCH2Bu)-Bu-t)(12)(PY)(2)] (2), [Fe-6(III)(O-2)(O)(2)(O2CCMe3)(12)(py)(2)] (3), [(Fe6O3)-O-III(O2CMe)(9)(OEt)(2)(bpy)(2)}ClO4 (4), [(Mn6O2)-O-III(O2CH2)(O(2)CPe(t))(11)(HO(2)CPe(t))(2)(O2CMe)} (5), and [Ni-6(III)(OH)(4)((O2CBu)-Bu-t)(8)((BuCO2H)-Bu-t)(4)} (6) complexes. We have estimated all the eight near-neighbor exchange coupling constants in these clusters. Our calculations not only agree with the experimental results but also offer insight on the origin of the spin ground state. Extensive magneto-structural correlations developed by varying M-O-M angles and M-O distances reveal that J values are extremely sensitive to small structural distortions. Correlations developed indicate that both the parameters are important for Fe(III), but for Mn(III) and Ni(II), the angles were found to play a dominant role. Quite interestingly, the computed zero-field splitting parameter D-S=S of complex 1 reveals that the exchange contribution t

机译：控制自旋哈密顿参数，例如磁交换和多核簇的磁各向异性的参数对单分子磁体（SMMS）的面积具有很大的兴趣。在大的多核簇中，六核簇在尺寸方面提供了最佳的折衷，因为它们通常是刚性，溶液稳定和化学易用的。 {M602}核心是许多十六核集群已知的常见架构之一，并且通常报告以具有二磁场S-T = 0旋转地位，禁止几例。在这些集群中，有几个打开的问题被理解得很差：（a）控制磁交换的性质是什么，这反过来决定了地面旋转值？（b）对于具有非零旋转地位的簇，是什么决定磁各向异性？这里，使用密度函数方法，我们通过评估[（Fe 6O2）-O-III（OH）（2）（2）（2）C（OH）o）的交换偶联常数，试图通过这两个问题脱光。（C4N2H2ME）（2）C（OH）O. }（2）（（Buco2）-Bu-T）（10）]（1），[Fe-6（III）（O）（2）（2）（O 2 CH 2）（（O 2 CCH 2BU）-BU-T）（12）（ py）（2）]（2），[Fe-6（III）（O-2）（O）（2）（2）（O 2 CCME 3）（12）（Py）（2）]（3），[（Fe 6O3） - O-III（O2CME）（9）（OET）（2）（BPY）（2）} ClO4（4），[（Mn6O2）-O-III（O2CH2）（O（2）CPE（T））（11 ）（HO（2）CPE（T））（2）（2）（O 2 CME）}（5），[Ni-6（III）（OH）（OH）（4）（（O2CBU）-BU-T）（8）（（ Buco2H）-Bu-T）（4）}（6）复合物。我们估计这些集群中的所有八个近邻近邻耦合常量。我们的计算不仅与实验结果一致意见，而且还提供对旋转地面状态的起源的洞察力。通过不同的M-O-M角度和M-O距离开发的广泛的磁结构相关性表明J值对小结构扭曲非常敏感。相关的相关表明，两个参数对于Fe（III）很重要，但对于Mn（III）和Ni（II），发现角度发挥着主导作用。非常有趣的是，复杂的1的计算过零场拆分参数D-S = S揭示了交换贡献t

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《Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics 》 |2019年第5期| 共14页
作者
Singh Mukesh Kumar; Rajaraman Gopalan;
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Indian Inst Technol Dept Chem Mumbai 400076 Maharashtra India;

Indian Inst Technol Dept Chem Mumbai 400076 Maharashtra India;

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1. Theoretical Studies on Hexanuclear [M-3(mu(3)-O/OH)](2) (M = Fe(III), Mn(III), and Ni(II)) Clusters: Magnetic Exchange, Magnetic Anisotropy, and Magneto-Structural Correlations [J] . Singh Mukesh Kumar, Rajaraman Gopalan Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2019 ,第5期

机译：己克核[M-3（MU（3）-O / OH）]（2）（M = Fe（III），Mn（III）和Ni（II））簇的理论研究：磁交换，磁各向异性和磁结构相关性
2. Magneto-Structural Properties and Theoretical Studies of a Family of Simple Heterodinuclear Phenoxide/Alkoxide Bridged Mn(III)Ln(III) Complexes: On the Nature of the Magnetic Exchange and Magnetic Anisotropy [J] . Hanninen Mikko M., Mota Antonio J., Sillanpaa Reijo, Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2018 ,第7期

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Theoretical Studies on Hexanuclear [M-3(mu(3)-O/OH)](2) (M = Fe(III), Mn(III), and Ni(II)) Clusters: Magnetic Exchange, Magnetic Anisotropy, and Magneto-Structural Correlations

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