Issue 8, 2020

2,5-Bis-trimethylsilyl substituted boroles

Abstract

This manuscript includes a comprehensive study of the synthesis and spectroscopic features of 2,5-disilyl boroles. Reacting boron trichloride BCl3 with 2,3-Ph*2-1,4-(SiMe3)2-1,4-dilithiobuta-1,3-diene (Ph* = 3,5-t-Bu2(C6H3)) allowed reliable access to 1-Chloro-2,5-(SiMe3)2-3,4-(Ph*)2-borole in good yields (60%). Unlike 2,3,4,5-tetraphenyl haloboroles, this 2,5-bis-trimethylsilyl substituted chloroborole is thermally stable in solution to up to 130 °C. Metathesis reactions of the chloroborole with metal aryls or of the dilithiobutadiene with arylboron dihalides grant access to 1-Ar-2,5-(SiMe3)2-3,4-(Ph*)2 boroles (Ar = Ph, Mes, Ph*, C6F5). Unlike the generally intensely blue-green 2,3,4,5-tetraaryl boroles, brightly orange/red 2,5-bis-trimethylsilyl substituted boroles reveal blue-shifted π/π*-transitions due to a lack of π-system interaction between borole and 2,5-bound aryls. Light is shed on the synthetic peculiarities for the synthesis of 2,5-disilyl-boroles. While direct treatment of the respective 1,1-dimethyl-stannole with ArBCl2via otherwise well-established B/Sn exchange reactions fails, the selectivity of reactions of 2,3-Ph*2-1,4-(SiMe3)2-1,4-dilithiobuta-1,3-diene with ArBCl2 is solvent dependent and leads to rearranged 3-borolenes in hydrocarbons. Gutmann–Beckett analysis reveal reduced Lewis-acidity of disilylboroles compared to pentaphenyl borole.

Graphical abstract: 2,5-Bis-trimethylsilyl substituted boroles

Supplementary files

Article information

Article type
Paper
Submitted
13 Jan 2020
Accepted
03 Feb 2020
First published
06 Feb 2020
This article is Open Access
Creative Commons BY-NC license

Dalton Trans., 2020,49, 2706-2714

2,5-Bis-trimethylsilyl substituted boroles

T. Heitkemper, L. Naß and C. P. Sindlinger, Dalton Trans., 2020, 49, 2706 DOI: 10.1039/D0DT00393J

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