Photochemical Generation of Chiral N,B,X-Heterocycles by Heteroaromatic C−X Bond Scission (X=S, O) and Boron Insertion

Soren K. Mellerup; Cally Li; Julian Radtke; Xiang Wang; Quan Song Li; Suning Wang

doi:10.1002/anie.201803760

Photochemical Generation of Chiral N,B,X-Heterocycles by Heteroaromatic C−X Bond Scission (X=S, O) and Boron Insertion

Soren K. Mellerup, Cally Li, Julian Radtke, Xiang Wang, Quan Song Li^*, Suning Wang

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Research output: Contribution to journal › Article › peer-review

34 Citations (Scopus)

Abstract

Chiral organoboron compounds with a chelate backbone and mesityl/heterocycle substituents (thienyl, furyl, and derivatives thereof) undergo a quantitative phototransformation that yields rare, chiral N,B,X-containing heterocycles, such as base-stabilized 1,2-thiaborinines and 1,2-oxaborinines. Boriranes were observed as intermediates in some of these transformations. The oxaborinines display further reactivity, generating 4a,12b-dihydrobenzo[h][1,2]oxaborinino[4,3-f]quinolines through a sequential conrotatory electrocyclization and a [1,5]-H shift. The N,B,X-containing heterocycles display strong blue-green to orange-red emission in the solid state. Combined DFT//CASP2T calculations suggest that a common biradical intermediate is responsible for the formation of these compounds as well as their interconversion.

Original language	English
Pages (from-to)	9634-9639
Number of pages	6
Journal	Angewandte Chemie - International Edition
Volume	57
Issue number	31
DOIs	https://doi.org/10.1002/anie.201803760
Publication status	Published - 26 Jul 2018

Keywords

C−X bond cleavage
boron compounds
boron insertion
photochemistry
photoisomerization

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Mellerup, S. K., Li, C., Radtke, J., Wang, X., Li, Q. S., & Wang, S. (2018). Photochemical Generation of Chiral N,B,X-Heterocycles by Heteroaromatic C−X Bond Scission (X=S, O) and Boron Insertion. Angewandte Chemie - International Edition, 57(31), 9634-9639. https://doi.org/10.1002/anie.201803760

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abstract = "Chiral organoboron compounds with a chelate backbone and mesityl/heterocycle substituents (thienyl, furyl, and derivatives thereof) undergo a quantitative phototransformation that yields rare, chiral N,B,X-containing heterocycles, such as base-stabilized 1,2-thiaborinines and 1,2-oxaborinines. Boriranes were observed as intermediates in some of these transformations. The oxaborinines display further reactivity, generating 4a,12b-dihydrobenzo[h][1,2]oxaborinino[4,3-f]quinolines through a sequential conrotatory electrocyclization and a [1,5]-H shift. The N,B,X-containing heterocycles display strong blue-green to orange-red emission in the solid state. Combined DFT//CASP2T calculations suggest that a common biradical intermediate is responsible for the formation of these compounds as well as their interconversion.",

keywords = "C−X bond cleavage, boron compounds, boron insertion, photochemistry, photoisomerization",

author = "Mellerup, {Soren K.} and Cally Li and Julian Radtke and Xiang Wang and Li, {Quan Song} and Suning Wang",

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AU - Li, Cally

AU - Radtke, Julian

AU - Wang, Xiang

AU - Li, Quan Song

AU - Wang, Suning

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AB - Chiral organoboron compounds with a chelate backbone and mesityl/heterocycle substituents (thienyl, furyl, and derivatives thereof) undergo a quantitative phototransformation that yields rare, chiral N,B,X-containing heterocycles, such as base-stabilized 1,2-thiaborinines and 1,2-oxaborinines. Boriranes were observed as intermediates in some of these transformations. The oxaborinines display further reactivity, generating 4a,12b-dihydrobenzo[h][1,2]oxaborinino[4,3-f]quinolines through a sequential conrotatory electrocyclization and a [1,5]-H shift. The N,B,X-containing heterocycles display strong blue-green to orange-red emission in the solid state. Combined DFT//CASP2T calculations suggest that a common biradical intermediate is responsible for the formation of these compounds as well as their interconversion.

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Photochemical Generation of Chiral N,B,X-Heterocycles by Heteroaromatic C−X Bond Scission (X=S, O) and Boron Insertion

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