Rongalite in PEG-400 as a general and reusable system for the synthesis of 2,5-disubstituted chalcogenophenes

In this work, we report the use of rongalite in PEG-400 as a general, reusable, efficient, inexpensive and environmentally benign reductive system for elemental chalcogens and its use for the synthesis of 2,5-disubstituted chalcogenophenes (S, Se, Te) from 1,3-butadiynes. This non-conventional reduc...

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Veröffentlicht in:	Organic Chemistry Frontiers 2022-09, Vol.9 (19), p.5225-5236
Hauptverfasser:	Paixão, Douglas B., Soares, Eduardo G. O., Salles, Helena D., Silva, Caren D. G., Rampon, Daniel S., Schneider, Paulo H.
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Sprache:	eng
Schlagworte:	Catalysts Chemical reactions Chemical synthesis Organic chemistry Reagents
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creator	Paixão, Douglas B. Soares, Eduardo G. O. Salles, Helena D. Silva, Caren D. G. Rampon, Daniel S. Schneider, Paulo H.
description	In this work, we report the use of rongalite in PEG-400 as a general, reusable, efficient, inexpensive and environmentally benign reductive system for elemental chalcogens and its use for the synthesis of 2,5-disubstituted chalcogenophenes (S, Se, Te) from 1,3-butadiynes. This non-conventional reductive system provided nucleophilic chalcogen species that could add regioselectively to the triple bond, with subsequent 5- endo-dig cyclization. Using this method, a wide range of symmetrical and non-symmetrical 1,3-butadiynes, bearing electron-donating or electron-withdrawing groups, were successfully employed for the synthesis of the desired chacogenophenes. This protocol benefits from many sustainable features; it is catalyst-free, safe to carry out, and uses cheap reagents and non-toxic chemical reaction media. Furthermore, the operationally simple reaction conditions and easy product separation allowed the reuse of PEG-400 in up to four successive reactions for the synthesis of 2,5-diphenylselenophene.
doi_str_mv	10.1039/D2QO01069K
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subjects	Catalysts Chemical reactions Chemical synthesis Organic chemistry Reagents
title	Rongalite in PEG-400 as a general and reusable system for the synthesis of 2,5-disubstituted chalcogenophenes
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