一种新型的 3-D 配位聚合物作为基于 CuI 的热电复合材料的前体。
A new 3-D coordination polymer as a precursor for CuI-based thermoelectric composites.
机构信息
Institute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research), 2 Fusionopolis Way, #08-03, Innovis, Singapore 138634, Republic of Singapore.
出版信息
Dalton Trans. 2018 Nov 22;47(45):16292-16298. doi: 10.1039/c8dt03219j.
Two complexes, [Cu6I6(L1)3]n (I) and [Cu4I4(L2)2]n (II) (L1 = 1,4-bis(phenylthio)but-2-yne; L2 = 1,4-bis(phenylthio)butane), as precursors for thermoelectric composites were prepared using a literature procedure. During the preparation of I, an unexpected 3-D polymorph [Cu4I4(L1)2]n (1) with a triclinic space group and an infinite [CuI]n staircase structure was obtained. This new polymorph (1) exhibited the same structure at both room temperature and 173 K. Complexes 1 and II were therefore pyrolysed to composites 2 and 3, respectively, at 400 °C under a nitrogen gas flow. Composite 3 was pale in color with a low carbon content (0.05 wt%) and easily disassembled during handling. By comparison, the high carbon containing (10.2 wt%) composite 2 can be compressed into a robust, light pellet (density 3.58 g cm-3), which showed a moderate to high Seebeck coefficient (543-1308 μV K-1) over the temperature range 70-240 °C.
两个配合物,[Cu6I6(L1)3]n (I) 和 [Cu4I4(L2)2]n (II) (L1 = 1,4-双(苯硫基)丁-2-炔;L2 = 1,4-双(苯硫基)丁烷),作为热电复合材料的前体,是按照文献程序制备的。在制备 I 的过程中,得到了一种意想不到的 3-D 多晶型物 [Cu4I4(L1)2]n (1),其具有三斜空间群和无限的[CuI]n 阶梯结构。这种新的多晶型物(1)在室温下和 173 K 下表现出相同的结构。因此,复合物 1 和 II 分别在 400°C 下在氮气气流中热解为复合物 2 和 3。复合物 3 颜色浅,含碳量低(0.05wt%),在处理过程中容易分解。相比之下,高含碳量(10.2wt%)的复合物 2 可以压缩成坚固、轻便的颗粒(密度为 3.58 g cm-3),在 70-240°C 的温度范围内表现出中等至高的 Seebeck 系数(543-1308 μV K-1)。
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