通过苯并噻二唑导向的C-H硼化增强给体-受体有机半导体中的电子亲和力并调节带隙

Enhancing electron affinity and tuning band gap in donor-acceptor organic semiconductors by benzothiadiazole directed C-H borylation.

作者信息

Crossley D L, Cade I A, Clark E R, Escande A, Humphries M J, King S M, Vitorica-Yrezabal I, Ingleson M J, Turner M L

机构信息

School of Chemistry , University of Manchester , Manchester , M13 9PL , UK . Email:

Cambridge Display Technology Limited , Unit 3, Cardinal Park, Cardinal Way , Godmanchester , PE29 2XG , UK.

出版信息

Chem Sci. 2015 Sep 1;6(9):5144-5151. doi: 10.1039/c5sc01800e. Epub 2015 Jun 12.

DOI:10.1039/c5sc01800e

PMID:29142733

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5666683/

Abstract

Electrophilic borylation using BCl and benzothiadiazole to direct the C-H functionalisation of an adjacent aromatic unit produces fused boracyclic materials with minimally changed HOMO energy levels but significantly reduced LUMO energy levels. alkylation and arylation at boron using Al(alkyl) or Zn(aryl) is facile and affords boracycles that possess excellent stability towards protic solvents, including water, and display large bathochromic shifts leading to far red/NIR emission in the solid state with quantum yields of up to 34%. Solution fabricated OLEDs with far red/NIR electroluminescence are reported with EQEs > 0.4%.

摘要

使用BCl和苯并噻二唑进行亲电硼化以引导相邻芳族单元的C-H官能化，可产生具有最小变化的HOMO能级但显著降低的LUMO能级的稠合硼环材料。使用Al(烷基)或Zn(芳基)在硼上进行烷基化和芳基化很容易，得到的硼环对包括水在内的质子溶剂具有出色的稳定性，并显示出大的红移，导致固态中远红/近红外发射，量子产率高达34%。报道了具有远红/近红外电致发光的溶液制备OLED，其外量子效率>0.4%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d931/5666683/b98e4ee052aa/c5sc01800e-f1.jpg

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通过苯并噻二唑导向的C-H硼化增强给体-受体有机半导体中的电子亲和力并调节带隙

Enhancing electron affinity and tuning band gap in donor-acceptor organic semiconductors by benzothiadiazole directed C-H borylation.

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通过苯并噻二唑导向的C-H硼化增强给体-受体有机半导体中的电子亲和力并调节带隙

Enhancing electron affinity and tuning band gap in donor-acceptor organic semiconductors by benzothiadiazole directed C-H borylation.

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