Transition‐Metal‐Free Oxidative C(sp2)−H Hydroxylation of Terpyridines: A HOMO‐Raising Strategy for the Construction of a New Super‐Stable Terpyridine Chromophores

Transition‐Metal‐Free Oxidative C(sp2)−H Hydroxylation of Terpyridines: A HOMO‐Raising Strategy for the Construction of a New Super‐Stable Terpyridine Chromophores

Direct functionalization of terpyridines is an increasingly important topic in the field of dyes and catalysis as well as supramolecular chemistry, but its synthesis and transformation is usually challenging. Herein, a HOMO‐raising strategy is reported for the construction of a super‐stable novel te...

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Veröffentlicht in:Chemistry : a European journal 2017-03, Vol.23 (17), p.4055-4059
Hauptverfasser: Huang, Jiang‐Bo, Bai, Xing‐Feng, Li, Li, Zheng, Zhan‐Jiang, Xu, Zheng, Cui, Yu‐Ming, Cao, Jian, Xu, Li‐Wen
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Sprache:eng
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aggregation-induced emission
Bearing
Cations
Chemistry
Chromophores
Emission
lithium
molecular recognition
Nanostructure
Oxidation
selective oxidation
Strategy
terpyridine
Zinc
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container_end_page 4059
container_issue 17
container_start_page 4055
container_title Chemistry : a European journal
container_volume 23
creator Huang, Jiang‐Bo
Bai, Xing‐Feng
Li, Li
Zheng, Zhan‐Jiang
Xu, Zheng
Cui, Yu‐Ming
Cao, Jian
Xu, Li‐Wen
description Direct functionalization of terpyridines is an increasingly important topic in the field of dyes and catalysis as well as supramolecular chemistry, but its synthesis and transformation is usually challenging. Herein, a HOMO‐raising strategy is reported for the construction of a super‐stable novel terpyridine chromophores, in which the selective oxidation of terpyridines at its 3‐position was determined successfully to the synthesis of phenol‐functionalization of terpyridines (TPyOHs) bearing a hydrogen bonding group. The corresponding TPyOHs displayed strong aggregation‐induced emission and exhibited highly selective and visual detection of ZnII cation with a record green terpyridine‐based luminophore with nanomolar sensitivity (125 nm). A HOMO‐raising strategy: This is the first example to reveal clearly that a new family of terpyridine molecules bearing a phenol group at the 3‐position (simplified as TPyOHs) can be prepared by tBuLi‐promoted air oxidation of simple terpyridines. The method provides a useful fluorescent probe to zinc cation and aggregation‐induced emission active molecules and Zn complex as a green luminophore.
doi_str_mv 10.1002/chem.201605793
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source Wiley Online Library Journals Frontfile Complete
subjects aggregation-induced emission
Bearing
Cations
Chemistry
Chromophores
Emission
lithium
molecular recognition
Nanostructure
Oxidation
selective oxidation
Strategy
terpyridine
Zinc
title Transition‐Metal‐Free Oxidative C(sp2)−H Hydroxylation of Terpyridines: A HOMO‐Raising Strategy for the Construction of a New Super‐Stable Terpyridine Chromophores
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