LuC的晶体学表征（2 = 76 - 90）：根据笼尺寸选择簇

Crystallographic characterization of LuC (2 = 76-90): cluster selection by cage size.

作者信息

Shen Wangqiang, Bao Lipiao, Hu Shuaifeng, Yang Le, Jin Peng, Xie Yunpeng, Akasaka Takeshi, Lu Xing

机构信息

State Key Laboratory of Materials Processing and Die & Mould Technology , School of Materials Science and Engineering , Huazhong University of Science and Technology , 1037 Luoyu Road , Wuhan , 430074 , China . Email:

School of Materials Science and Engineering , Hebei University of Technology , Tianjin , 300130 , China . Email:

出版信息

Chem Sci. 2018 Oct 30;10(3):829-836. doi: 10.1039/c8sc03886d. eCollection 2019 Jan 21.

DOI:10.1039/c8sc03886d

PMID:30774877

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6345353/

Abstract

The successful isolation and unambiguous crystallographic assignment of a series of lutetium-containing endohedral metallofullerenes (EMFs), LuC (2 = 76, 78, 80, 84, 86, 88, 90), reveal an unrecognized decisive effect of the cage size on the configuration of the encapsulated clusters. The molecular structures of these compounds are unambiguously assigned as Lu@ (2)-C, Lu@ (5)-C, Lu@ (5)-C, Lu@ (7)-C, Lu@ (8)-C, Lu@ (15)-C, Lu@ (26)-C, LuC@ (9)-C, LuC@ (32)-C and LuC@ (35)-C. Specifically, when the cage is relatively small, Lu@C (2 = 76-86) are all dimetallofullerenes (di-EMFs) and a Lu-Lu single bond could be formed between the two lutetium ions inside the cages. However, when the cage expands further, the valence electrons forming the possible Lu-Lu bond donate to a readily inserted C-unit, resulting in the formation of carbide EMFs, LuC@C (2 = 86, 88). Consistently, our theoretical results reveal that all these EMFs are thermodynamically favorable isomers. Thus the comprehensive characterization of the series of LuC isomers and the overall agreement between the experimental and theoretical results reveal for the first time that the exact configuration of the internal metallic cluster is determined by the cage size, taking a solid step towards the controlled synthesis of novel hybrid molecules which may have potential applications as building blocks of single molecule devices.

摘要

一系列含镥内嵌金属富勒烯（EMFs），即LuC（n = 76、78、80、84、86、88、90）的成功分离及明确的晶体学归属，揭示了笼尺寸对包封簇构型的一种未被认识到的决定性影响。这些化合物的分子结构被明确归属为Lu@(2)-C、Lu@(5)-C、Lu@(5)-C、Lu@(7)-C、Lu@(8)-C、Lu@(15)-C、Lu@(26)-C、LuC@(9)-C、LuC@(32)-C和LuC@(35)-C。具体而言，当笼相对较小时，Lu@C（n = 76 - 86）均为二金属富勒烯（双EMFs），且笼内的两个镥离子之间可形成Lu - Lu单键。然而，当笼进一步扩大时，形成可能的Lu - Lu键的价电子会给予一个易于插入的C单元，从而导致碳化物EMFs，即LuC@C（n = 86、88）的形成。一致地，我们的理论结果表明所有这些EMFs都是热力学上有利的异构体。因此，对该系列LuC异构体的全面表征以及实验与理论结果的总体一致性首次揭示了内部金属簇的确切构型由笼尺寸决定，朝着可控合成可能作为单分子器件构建块具有潜在应用的新型杂化分子迈出了坚实的一步。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ee2/6345353/b596801105e7/c8sc03886d-f1.jpg

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LuC的晶体学表征（2 = 76 - 90）：根据笼尺寸选择簇

Crystallographic characterization of LuC (2 = 76-90): cluster selection by cage size.

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