What question did this study set out to answer?

The aim is to synthesize substituted chromanes and tetrahydroquinolines using a novel 1,2-silyl shift followed by Friedel-Crafts cyclization.

April 24, 2026

Synthesis of Substituted Chromanes and Tetrahydroquinolines via Tandem 1,2-Silyl Shift–Friedel–Crafts Cyclization

Key Points

The aim is to synthesize substituted chromanes and tetrahydroquinolines using a novel 1,2-silyl shift followed by Friedel-Crafts cyclization.
Utilized propargyl silanes with aryl ether or aniline groups, promoting a 1,2-silyl shift.
Conducted acid-promoted Friedel-Crafts cyclization to form final products.
Employed Ag2CO3 or AgOAc catalysts for haloalkyne synthesis.
Achieved chromanes synthesis with yields ranging from 24-99%.
Generated tetrahydroquinolines with yields between 21-77%.
Higher yields for chloro- and bromoalkyne motifs compared to unsubstituted alkynes, indicating improved reaction efficiency.

Abstract

Propargyl silanes bearing an aryl ether or aniline moiety undergo acid-promoted 1,2-silyl shift to generate an allyl cation, which subsequently alkylates the adjacent aryl group in a Friedel-Crafts fashion. The developed methodology furnishes chromanes in 24-99% yields and 1,2,3,4-tetrahydroquinolines in 21-77% yields, depending on the substitution pattern. The distinctive feature of the developed methodology is the synthesis of (trialkylsilyl)vinyl- and (Z)-2-halo-1-(trialkylsilyl)vinyl-substituted heterocycles. Propargyl silanes bearing chloro- and bromoalkyne motifs afford cyclization products in higher yields than their terminally unsubstituted alkyne counterparts, providing access to trisubstituted (Z)-alkenes with high stereoselectivity. The paper also reports an improved protocol for silver-catalyzed haloalkyne synthesis, which is enabled by the use of Ag2CO3 or AgOAc catalysts.

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Synthesis of Substituted Chromanes and Tetrahydroquinolines via Tandem 1,2-Silyl Shift–Friedel–Crafts Cyclization

Key Points

Abstract

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