Influence of Water Molecules on Properties of Binuclear or Bridged Structures for Chiral CuII-NiII, CuII-PdII, and CuII-PtII Tetracyano- Bimetallic Assemblies

The Open Crystallography Journal Pub Date : 2011-03-10 DOI:10.2174/1874846501104010002

T. Akitsu, Yukihiko Endo, Minoru Okawara, Yusuke Kimoto, M. Ohwa

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引用次数: 7

Abstract

We have prepared new chiral bimetallic assemblies of discrete binuclear [CuL2][Ni(CN)4]·2H2O or onedimensional cyanide-bridged [CuL2][Pd(CN)4] (and [CuL2][Pt(CN)4]) (L = (1S,2S)-(+)-N,N'-dimethyl-cyclohexane-1,2diamine). The numbers of co-crystallized water molecules contained are different from each other and their compositions are easy to vary due to co-crystallized water molecules. As far as we studied on the related [Cu(diamine)2]a [M(CN)b]c·dH2O compounds, actually such a feature has been found for the first time. According to crystal structures, the elongated axial bond distances of [CuL2] 2+ moieties are Cu-N = 2.195(7) Å for [CuL2][Ni(CN)4]·2H2O, Cu-N = 2.443(4) and 2.519(2) Å for [CuL2][Pd(CN)4]. Single crystal structure analyses, variable low temperature XRD, measurements of electronic, CD, emission, and XPS spectra and magnetic properties have been carried out. We compared their structural preference between Ni and Pd (or Pt) metal ions. Novel emission band of [CuL2][Pt(CN)4] appeared at 410 nm ( ex = 360 nm) in the solid state regardless of quenching by cyanide-bridged [CuL2] 2+ moieties.

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水分子对手性CuII-NiII、CuII-PdII和CuII-PtII四氰双金属组合物双核或桥结构性质的影响

我们制备了新的离散双核[CuL2][Ni(CN)4]·2H2O或一维氰化物桥接[CuL2][Pd(CN)4](和[CuL2][Pt(CN)4]) (L = (1S,2S)-(+)-N,N'-二甲基-环己烷-1,2二胺)的手性双金属组件。所含的共结晶水分子数量不同，其组成也容易因共结晶水分子的存在而发生变化。在我们对相关的[Cu(diamine)2]a [M(CN)b]c·dH2O化合物的研究中，实际上是第一次发现这样的特征。从晶体结构来看，[CuL2] 2+基团的轴向键长距离分别为:[CuL2][Ni(CN)4]·2H2O的Cu-N = 2.195(7) Å， [CuL2][Pd(CN)4]的Cu-N = 2.443(4)和2.519(2)Å。进行了单晶结构分析、可变低温XRD、电子、CD、发射、XPS光谱和磁性能测量。我们比较了它们在Ni和Pd(或Pt)金属离子之间的结构偏好。在410 nm (ex = 360 nm)处出现了新的[CuL2][Pt(CN)4]发射带，与氰化物桥接[CuL2] 2+基团猝灭无关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Open Crystallography Journal

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