Katz Michael J, Ramnial Taramatee, Yu Hua-Zhong, Leznoff Daniel B
Department of Chemistry, Simon Fraser University, 8888 University Drive, Burnaby, British Columbia, Canada V5A 1S6.
J Am Chem Soc. 2008 Aug 13;130(32):10662-73. doi: 10.1021/ja801773p. Epub 2008 Jul 19.
Four polymorphic forms of the complex Zn[Au(CN)2]2 have been synthesized and both structurally and spectroscopically characterized. In each of the four polymorphs, a zinc center in a tetrahedral geometry with a Au(CN)2(-) unit at each tetrahedral vertex is observed. All four structures contain three-dimensional networks based on corner-sharing tetrahedra. Because of the long Au(CN)2(-) bridging unit, the extra space not occupied by one network is filled by two to five additional interpenetrated networks. Short gold-gold bonds with lengths ranging from 3.11 to 3.33 A hold the interpenetrated networks together. Three of the four polymorphs are luminescent, having solid-state emissions with wavelengths ranging from 390 to 480 nm. A linear correlation between the emission energy and the gold-gold distance was observed. Upon exposure to ammonia vapor, the polymers altered their structures and emission energies, with the emission wavelength shifting to 500 nm for {Zn(NH3)2[Au(CN)2]2}, which adopts a two-dimensional layer structure with octahedral, trans-oriented NH3 groups. The adsorption route is dependent on the polymorph used, with NH3 detection limits as low as 1 ppb. Desorption of the ammonia occurred over 30 min at room temperature.
已合成了配合物Zn[Au(CN)₂]₂的四种多晶型物,并对其进行了结构和光谱表征。在这四种多晶型物的每一种中,都观察到一个处于四面体几何构型的锌中心,在每个四面体顶点处有一个Au(CN)₂⁻单元。所有四种结构都包含基于共角四面体的三维网络。由于Au(CN)₂⁻桥连单元较长,一个网络未占据的额外空间被两到五个额外的互穿网络填充。长度在3.11至3.33 Å范围内的短金-金键将互穿网络连接在一起。四种多晶型物中的三种具有发光性,固态发射波长范围为390至480 nm。观察到发射能量与金-金距离之间存在线性相关性。暴露于氨蒸气中时,聚合物改变了其结构和发射能量,对于{Zn(NH₃)₂[Au(CN)₂]₂},发射波长移至500 nm,其采用具有八面体、反式取向NH₃基团的二维层状结构。吸附途径取决于所使用的多晶型物,氨的检测限低至1 ppb。氨在室温下30分钟内发生解吸。
