石墨烯在金属有机骨架纳米线合成中的结构导向作用。

Structure-directing role of graphene in the synthesis of metal-organic framework nanowire.

机构信息

Department of Chemistry, National University of Singapore, 3 Science Drive 3, Singapore 117543.

出版信息

J Am Chem Soc. 2010 Oct 20;132(41):14487-95. doi: 10.1021/ja105089w.

PMID:20863117

Abstract

Graphene can be decorated with functional groups on either side of its basal plane, giving rise to a bifunctional nanoscale building block that can undergo face-to-face assembly. We demonstrate that benzoic acid-functionalized graphene (BFG) can act as a structure-directing template in influencing the crystal growth of metal-organic framework (MOF). BFG is also incorporated into MOF as framework linker. Because of the high density of carboxylic groups on benzoic acid-functionalized graphene, an unusual MOF nanowire that grows in the [220] direction was synthesized. The diameter of the nanowire correlates closely with the lateral dimensions of the BFG. The intercalation of graphene in MOF imparts new electrical properties such as photoelectric transport in the otherwise insulating MOF. The results point to the possibility of using functionalized graphene to synthesize a wide range of structural motifs in MOF with adjustable metrics and properties.

摘要

石墨烯的基面两侧可以被功能基团修饰，形成双功能纳米结构单元，可以进行面对面的组装。我们证明苯甲酸功能化石墨烯（BFG）可以作为一个结构导向模板，影响金属有机骨架（MOF）的晶体生长。BFG 也被掺入 MOF 作为骨架连接体。由于苯甲酸功能化石墨烯上的羧基密度很高，因此合成了一种异常的沿[220]方向生长的 MOF 纳米线。纳米线的直径与 BFG 的横向尺寸密切相关。石墨烯在 MOF 中的插层赋予了新的电学性质，如在原本不导电的 MOF 中的光电输运。这些结果表明，有可能使用功能化石墨烯在 MOF 中合成具有可调尺寸和性能的各种结构基元。

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石墨烯在金属有机骨架纳米线合成中的结构导向作用。

Structure-directing role of graphene in the synthesis of metal-organic framework nanowire.

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