Improved Rapid and Green Synthesis of N-Aryl Piperazine Hydrochlorides Using Synergistic Coupling of Hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation

Riyaj S. Tamboli; Mahesh M. Shidore; Radha Charan Dash; Ashish M. Kanhed; Nirav R. Patel; Shailesh R. Shah; Mangeram Ram Yadav

doi:10.1002/slct.201803237

Improved Rapid and Green Synthesis of N-Aryl Piperazine Hydrochlorides Using Synergistic Coupling of Hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation

Riyaj S. Tamboli, Mahesh M. Shidore, Radha Charan Dash, Ashish M. Kanhed, Nirav R. Patel, Shailesh R. Shah, Mangeram Ram Yadav

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

2 Scopus citations

Abstract

An improved and rapid green synthesis of N-alkyl/aryl piperazine hydrochlorides using synergistic coupling of hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation (MWI) has been described. The protocol worked well with good yields for electron withdrawing as well as electron donating groups in aryl amines to provide the respective aryl piperazine hydrochlorides. Presence of other labile groups like hydroxyl and thiol in the aryl amines remained unaffected. The said TSIL could be reused upto five cycles without an appreciable loss of the catalytic activity. It is proposed that [BbIm]OH along with a water molecule is able to catalyse the reaction due to symphoria. The proposed mechanism is supported by DFT and molecular dynamics studies. The use of hydrated TSIL like ([BbIm]OH) as reaction media may open new gates in green organic syntheses.

Original language	English (US)
Pages (from-to)	1138-1148
Number of pages	11
Journal	ChemistrySelect
Volume	4
Issue number	4
DOIs	https://doi.org/10.1002/slct.201803237
State	Published - Jan 31 2019
Externally published	Yes

Keywords

Green chemistry
Imidazolium
Microwave Irradiation (MWI)
N-Aryl piperazines
Task Specific Ionic Liquid (TSIL)

ASJC Scopus subject areas

General Chemistry

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10.1002/slct.201803237

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Improved Rapid and Green Synthesis of N-Aryl Piperazine Hydrochlorides Using Synergistic Coupling of Hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation. / Tamboli, Riyaj S.; Shidore, Mahesh M.; Dash, Radha Charan et al.
In: ChemistrySelect, Vol. 4, No. 4, 31.01.2019, p. 1138-1148.

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

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abstract = "An improved and rapid green synthesis of N-alkyl/aryl piperazine hydrochlorides using synergistic coupling of hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation (MWI) has been described. The protocol worked well with good yields for electron withdrawing as well as electron donating groups in aryl amines to provide the respective aryl piperazine hydrochlorides. Presence of other labile groups like hydroxyl and thiol in the aryl amines remained unaffected. The said TSIL could be reused upto five cycles without an appreciable loss of the catalytic activity. It is proposed that [BbIm]OH along with a water molecule is able to catalyse the reaction due to symphoria. The proposed mechanism is supported by DFT and molecular dynamics studies. The use of hydrated TSIL like ([BbIm]OH) as reaction media may open new gates in green organic syntheses.",

keywords = "Green chemistry, Imidazolium, Microwave Irradiation (MWI), N-Aryl piperazines, Task Specific Ionic Liquid (TSIL)",

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doi = "10.1002/slct.201803237",

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AU - Tamboli, Riyaj S.

AU - Shidore, Mahesh M.

AU - Dash, Radha Charan

AU - Kanhed, Ashish M.

AU - Patel, Nirav R.

AU - Shah, Shailesh R.

AU - Yadav, Mangeram Ram

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N2 - An improved and rapid green synthesis of N-alkyl/aryl piperazine hydrochlorides using synergistic coupling of hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation (MWI) has been described. The protocol worked well with good yields for electron withdrawing as well as electron donating groups in aryl amines to provide the respective aryl piperazine hydrochlorides. Presence of other labile groups like hydroxyl and thiol in the aryl amines remained unaffected. The said TSIL could be reused upto five cycles without an appreciable loss of the catalytic activity. It is proposed that [BbIm]OH along with a water molecule is able to catalyse the reaction due to symphoria. The proposed mechanism is supported by DFT and molecular dynamics studies. The use of hydrated TSIL like ([BbIm]OH) as reaction media may open new gates in green organic syntheses.

AB - An improved and rapid green synthesis of N-alkyl/aryl piperazine hydrochlorides using synergistic coupling of hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation (MWI) has been described. The protocol worked well with good yields for electron withdrawing as well as electron donating groups in aryl amines to provide the respective aryl piperazine hydrochlorides. Presence of other labile groups like hydroxyl and thiol in the aryl amines remained unaffected. The said TSIL could be reused upto five cycles without an appreciable loss of the catalytic activity. It is proposed that [BbIm]OH along with a water molecule is able to catalyse the reaction due to symphoria. The proposed mechanism is supported by DFT and molecular dynamics studies. The use of hydrated TSIL like ([BbIm]OH) as reaction media may open new gates in green organic syntheses.

KW - Green chemistry

KW - Imidazolium

KW - Microwave Irradiation (MWI)

KW - N-Aryl piperazines

KW - Task Specific Ionic Liquid (TSIL)

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Improved Rapid and Green Synthesis of N-Aryl Piperazine Hydrochlorides Using Synergistic Coupling of Hydrated Task Specific Ionic Liquid ([BbIm]OH) and Microwave Irradiation

Abstract

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