1,2-(奔驰)Azaphospholes:一个缓慢的开始，一个光明的未来

IF 3.8 3区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Comments on Inorganic Chemistry Pub Date : 2020-01-02 DOI:10.1080/02603594.2019.1701447

Matthew F. Cain

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引用次数: 2

摘要

虽然最初是实验室的好奇心，但随着对其结构，反应性和电子性质的更好理解，磷孔的化学性质逐渐发展。随着它们作为新电子材料基石的潜力的出现，研究人员开始研究最大化π共轭的磷光孔。随后，许多具有σ2，λ3 p中心的杂原子取代衍生物被报道，但一个特殊的类似物1,2-(奔驰)azaphospholes明显缺失，可能是由于不寻常或不切实际的合成方法。2016年，一个偶然的合成发现提供了这些高度芳香的6π电子(如果包括熔融苯环，则为10π)杂环的直接途径。早期的反应性研究表明，这些稀有杂环的功能化产物具有不同寻常的结构，可以作为氢化功能化的催化剂，作为新型的金属化剂，或作为强键活化的反应中心。图形抽象

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1,2-(Benz)Azaphospholes: A Slow Beginning to a Bright Future

ABSTRACT While initially laboratory curiosities, the chemistry of phospholes evolved as a better understanding of their structure, reactivity, and electronic properties was established. With their potential as building blocks for new electronic materials emerging, researchers started to investigate phospholes that maximized π-conjugation. Subsequently, numerous heteroatom-substituted derivatives with a σ2,λ3 P-center were reported, but one particular analog, 1,2-(benz)azaphospholes was noticeably absent, likely due to unusual/impractical synthetic methods. A serendipitous synthetic discovery in 2016 provided straightforward access to these highly aromatic 6π-electron (10π if the fused benzene ring is included) heterocycles. Early reactivity studies have shown that the functionalized products of these rare heterocycles have unusual structures and may find application as catalysts for hydrofunctionalization, as new types of transmetallation agents, or as reactive centers for strong bond activation. GRAPHICAL ABSTRACT

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来源期刊

Comments on Inorganic Chemistry 化学-无机化学与核化学

CiteScore

9.00

自引率

1.90%

发文量

审稿时长

>12 weeks

期刊介绍： Comments on Inorganic Chemistry is intended as a vehicle for authoritatively written critical discussions of inorganic chemistry research. We publish focused articles of any length that critique or comment upon new concepts, or which introduce new interpretations or developments of long-standing concepts. “Comments” may contain critical discussions of previously published work, or original research that critiques existing concepts or introduces novel concepts. Through the medium of “comments,” the Editors encourage authors in any area of inorganic chemistry - synthesis, structure, spectroscopy, kinetics and mechanisms, theory - to write about their interests in a manner that is both personal and pedagogical. Comments is an excellent platform for younger inorganic chemists whose research is not yet widely known to describe their work, and add to the spectrum of Comments’ author profiles, which includes many well-established inorganic chemists.