钯（II）配位球工程：吡啶笼、喹啉碗和杂双环药丸，结合一个或两个富勒烯。

Pd(II) Coordination Sphere Engineering: Pyridine Cages, Quinoline Bowls, and Heteroleptic Pills Binding One or Two Fullerenes.

机构信息

Faculty of Chemistry and Chemical Biology , TU Dortmund University , Otto-Hahn Straße 6 , 44227 Dortmund , Germany.

Division of Chemistry and Materials Science, Graduate School of Engineering , Nagasaki University , Bunkyo-machi , Nagasaki 852-8521 , Japan.

出版信息

J Am Chem Soc. 2019 Jun 5;141(22):8907-8913. doi: 10.1021/jacs.9b02207. Epub 2019 May 22.

DOI:10.1021/jacs.9b02207

PMID:31067401

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6609009/

Abstract

Fullerenes and their derivatives are of tremendous technological relevance. Synthetic access and application are still hampered by tedious purification protocols, peculiar solubility, and limited control over regioselective derivatization. We present a modular self-assembly system based on a new low-molecular-weight binding motif, appended by two palladium(II)-coordinating units of different steric demands, to either form a [PdL] cage or an unprecedented [PdL(MeCN)] bowl (with L = pyridyl, L = quinolinyl donors). The former was used as a selective induced-fit receptor for C. The latter, owing to its more open structure, also allows binding of C and fullerene derivatives. By exposing only a fraction of the bound guests' surface, the bowl acts as fullerene protecting group to control functionalization, as demonstrated by exclusive monoaddition of anthracene. In a hierarchical manner, sterically low-demanding dicarboxylates were found to bridge pairs of bowls into pill-shaped dimers, able to host two fullerenes. The hosts allow transferring bound fullerenes into a variety of organic solvents, extending the scope of possible derivatization and processing methodologies.

摘要

富勒烯及其衍生物具有巨大的技术相关性。由于繁琐的纯化方案、特殊的溶解度和对区域选择性衍生化的有限控制，其合成途径和应用仍然受到阻碍。我们提出了一种基于新的低分子量结合基序的模块化自组装系统，该基序通过两个具有不同空间需求的钯（II）配位单元进行修饰，以形成 [PdL] 笼或前所未有的 [PdL(MeCN)] 碗（其中 L = 吡啶基，L = 喹啉基供体）。前者被用作 C 的选择性诱导契合受体。后者由于其更开放的结构，也允许 C 和富勒烯衍生物的结合。通过仅暴露结合客体表面的一部分，碗状结构充当富勒烯保护基团以控制功能化，这可以通过蒽的专一地加成得到证明。以分级的方式，空间位阻要求低的二羧酸酯被发现将碗状结构桥接成药丸状的二聚体，能够容纳两个富勒烯。这些主体允许将结合的富勒烯转移到各种有机溶剂中，扩展了可能的衍生化和加工方法的范围。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/6609009/2be5a4c0bdf3/ja-2019-02207s_0001.jpg

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钯（II）配位球工程：吡啶笼、喹啉碗和杂双环药丸，结合一个或两个富勒烯。

Pd(II) Coordination Sphere Engineering: Pyridine Cages, Quinoline Bowls, and Heteroleptic Pills Binding One or Two Fullerenes.

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