Recent advances of stable Blatter radicals: synthesis, properties and applications

Radicals, organic molecules with unpaired electrons, are applied across different scientific disciplines such as electronics, energy storage and biochemistry. Among them, due to the extensive delocalization of the spin on the arene and the endocyclic nitrogens, Blatter radicals possess unique electr...

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Published in:Materials chemistry frontiers 2020-12, Vol.4 (12), p.3433-3443
Main Authors: Ji, Yu, Long, Lanxin, Zheng, Yonghao
Format: Article
Language:English
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Chemical synthesis
Energy storage
Magnetic properties
Organic chemistry
Thermal stability
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description Radicals, organic molecules with unpaired electrons, are applied across different scientific disciplines such as electronics, energy storage and biochemistry. Among them, due to the extensive delocalization of the spin on the arene and the endocyclic nitrogens, Blatter radicals possess unique electronic and magnetic properties. Importantly, the excellence of chemical and thermal stability makes them have great potential in applications. In this review, the synthesis, properties and applications of Blatter radicals from recent developments are summarized. Furthermore, the future developments of Blatter radicals are also speculated. Radicals, organic molecules with unpaired electrons, are applied across different scientific disciplines such as electronics, energy storage and biochemistry.
doi_str_mv 10.1039/d0qm00122h
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subjects Chemical synthesis
Energy storage
Magnetic properties
Organic chemistry
Thermal stability
title Recent advances of stable Blatter radicals: synthesis, properties and applications
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