在合成电活性双层螺旋烯时克服应变

Defying strain in the synthesis of an electroactive bilayer helicene.

作者信息

Milton Margarita, Schuster Nathaniel J, Paley Daniel W, Hernández Sánchez Raúl, Ng Fay, Steigerwald Michael L, Nuckolls Colin

机构信息

Department of Chemistry , Columbia University , New York , New York 10027 , USA . Email:

Columbia Nano Initiative , Columbia University , New York , New York 10027 , USA.

出版信息

Chem Sci. 2018 Nov 20;10(4):1029-1034. doi: 10.1039/c8sc04216k. eCollection 2019 Jan 28.

DOI:10.1039/c8sc04216k

PMID:30774898

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6349016/

Abstract

We report the synthesis of a bilayer chiral nanographene incorporating a [7]helicene scaffold and two perylene-diimide (PDI) subunits. Twofold visible-light-induced oxidative cyclization of a phenanthrene framework selects for the desired PDI-helicene, despite the immense strain that distinguishes this helicene from two other accessible isomers. This strain arises from the extensive intramolecular overlap of the PDI subunits, which precludes racemization, even at elevated temperatures. Relative to a smaller homologue, this PDI-helicene exhibits amplified electronic circular dichroism. It also readily and reversibly accepts four electrons electrochemically. Modifications to the core phenanthrene subunit change the fluorescence and electrochemistry of the PDI-helicene without significantly impacting its electronic circular dichroism or UV-visible absorbance.

摘要

我们报道了一种包含[7]螺旋烯支架和两个苝二酰亚胺（PDI）亚基的双层手性纳米石墨烯的合成。尽管这种螺旋烯与另外两种可获得的异构体相比存在巨大的张力，但菲骨架的双重可见光诱导氧化环化反应仍能选择出所需的PDI-螺旋烯。这种张力源于PDI亚基广泛的分子内重叠，即使在高温下也能防止外消旋化。相对于较小的同系物，这种PDI-螺旋烯表现出放大的电子圆二色性。它还能轻松且可逆地进行电化学四电子接受。对核心菲亚基的修饰改变了PDI-螺旋烯的荧光和电化学性质，而不会显著影响其电子圆二色性或紫外-可见吸收。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8a81/6349016/0feaf4fa431d/c8sc04216k-f1.jpg

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在合成电活性双层螺旋烯时克服应变

Defying strain in the synthesis of an electroactive bilayer helicene.

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