Two Nanometer-Sized High-Nuclearity Homometallic Bromide Clusters (M26Br38)12– (M = Cu, Ag): Syntheses, Crystal Structures, and Efficient Adsorption Properties

The spontaneous formation of discrete spherical nanosized molecules is ubiquitous in nature; however, the actual structural imitation of such high-symmetry polyhedra from the edge sharing of regular polygons has still proved to be elusive. Herein, two high-nuclearity metal clusters, namely (TTB)4·M2...

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Published in:Inorganic chemistry 2020-07, Vol.59 (14), p.9579-9586
Main Authors: Zhu, Gai-Hong, Huang, Wen-Ming, Li, Yuan-Yuan, Wu, Xiao-Hui, Niu, Yun-Yin, Zang, Shuang-Quan
Format: Article
Language:English
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Summary:The spontaneous formation of discrete spherical nanosized molecules is ubiquitous in nature; however, the actual structural imitation of such high-symmetry polyhedra from the edge sharing of regular polygons has still proved to be elusive. Herein, two high-nuclearity metal clusters, namely (TTB)4·M26Br38 (M = Cu (1), Ag (2), TTB·Br3 = 1, 3, 5-tris­(triethylammoniomethyl)­benzene tribromide), have been rationally and solvothermally synthesized and structurally characterized. Single-crystal X-ray analysis confirmed that 1 has I4̅3m symmetry with a (Cu25Br34)12– anion shell enwrapping a CuBr4 tetrahedron and 2 has I4̅3m symmetry with a [Ag26Br34]12– anion shell enwrapping a Br4 pyramid. The diffuse-reflectance UV–vis measurements showed that both compounds possess proper semiconductor behaviors with tunable band gaps of 1.87 eV for 1 and 1.90 eV for 2. Interestingly, all the samples feature distinct adsorption speed and compound 1 shows good adsorption activity for methyl orange (MO) under the same reaction conditions. The effects of pH, temperature, and cyclicity on dye adsorption, together with the thermal stabilities and luminescence properties of the compounds, were also studied. From the cyclic adsorption of compound 1 to the anionic dye MO, it was found that the adsorption of MO was good over three cycles, and the third adsorption rate was still 93.90%.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.0c00573