Step Cyclization to Give Part Belt Oxygen-Functionalized Pillar6,10arenes

Part belt oxygen-functionalized pillar[6,10]arenes are synthesized by step cyclization. An oxygen-substituted tetramer and hexamer have been prepared to construct the O3 pillar[6]arene 4 via a hexamer cyclization reaction and the O6 pillar[10]arene 7 through a [4 + 1+4 + 1] cyclization reaction. X-r...

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Veröffentlicht in:	Organic letters 2025-01, Vol.27 (1), p.528
Hauptverfasser:	Xue, Weijian, Liu, Yuhang, Li, Huiqian, Ling, Xiangyu, Zhao, Bing, Yin, Yanbing
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Sprache:	eng
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container_title	Organic letters
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creator	Xue, Weijian Liu, Yuhang Li, Huiqian Ling, Xiangyu Zhao, Bing Yin, Yanbing
description	Part belt oxygen-functionalized pillar[6,10]arenes are synthesized by step cyclization. An oxygen-substituted tetramer and hexamer have been prepared to construct the O3 pillar[6]arene 4 via a hexamer cyclization reaction and the O6 pillar[10]arene 7 through a [4 + 1+4 + 1] cyclization reaction. X-ray crystallographic studies reveal that both macrocycles have a large cavity and indicate that the part belt oxygen-functionalized pillar[6,10]arenes have both similar cyclic structures and certain differences in configuration compared to pillararene. A variable-temperature 1H NMR experiment also demonstrated the structure differences between O3 pillar[6]arene 4 and traditional pillararene.Part belt oxygen-functionalized pillar[6,10]arenes are synthesized by step cyclization. An oxygen-substituted tetramer and hexamer have been prepared to construct the O3 pillar[6]arene 4 via a hexamer cyclization reaction and the O6 pillar[10]arene 7 through a [4 + 1+4 + 1] cyclization reaction. X-ray crystallographic studies reveal that both macrocycles have a large cavity and indicate that the part belt oxygen-functionalized pillar[6,10]arenes have both similar cyclic structures and certain differences in configuration compared to pillararene. A variable-temperature 1H NMR experiment also demonstrated the structure differences between O3 pillar[6]arene 4 and traditional pillararene.
doi_str_mv	10.1021/acs.orglett.4c04607
format	Article
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X-ray crystallographic studies reveal that both macrocycles have a large cavity and indicate that the part belt oxygen-functionalized pillar[6,10]arenes have both similar cyclic structures and certain differences in configuration compared to pillararene. A variable-temperature 1H NMR experiment also demonstrated the structure differences between O3 pillar[6]arene 4 and traditional pillararene.</abstract><doi>10.1021/acs.orglett.4c04607</doi></addata></record>
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title	Step Cyclization to Give Part Belt Oxygen-Functionalized Pillar6,10arenes
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