Abstract

Multiply arylated arenes are privileged structures with highly useful functions and fascinating optoelectronic and biological properties. This feature article reports the synthesis of fully arylated (hetero)arenes bearing more than two different aryl substituents and categorizes this emerging topic by the type of (hetero)arene core and the type of chemistry employed to install the (hetero)aryl substituents.

Highlights

  • Benzene, pyridine, thiophene, and other unsaturated ring structures are comprehensively calledarenes, which represent privileged structural motifs in functional molecules

  • As a subclass of multiply arylatedarenes, fully arylatedarenes have flourished as a unique structural class in functional organic materials and biologically active compounds

  • Shin Suzuki was born in Mie, Japan, in 1990. He obtained a Masters degree in Chemistry from Nagoya University in 2015. He is a postgraduate student in the group of Kenichiro Itami at Nagoya University, and working with Junichiro Yamaguchi as his co-supervisor focusing on the programmed synthesis of multiply arylated aromatic molecules

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Summary

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This feature article reports the synthesis of fully arylated (hetero)arenes bearing more than two different aryl substituents and categorizes this emerging topic by the type of (hetero)arene core and the type of chemistry employed to install the (hetero)aryl substituents

Introduction
Shin Suzuki
Junichiro Yamaguchi was born in
Feature Article
Fully arylated polyazoles
Fully arylated pyridines and pyrimidines
Conclusions
Full Text
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