Supported Rhodium (Rh@PS) Catalyzed Benzimidazoles Synthesis Using Ethanol/Methanol as C2H3/CH Source
An effective and stable polystyrene supported rhodium (Rh@PS) nano‐catalyst has been synthesized by following reduction‐deposition approach and applied for the selective benzimidazoles synthesis from 1,2‐phenylenediamines and ethanol/methanol as C2H3/CH source. The ethanol/methanol in the presence o...
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| Published in: | Advanced synthesis & catalysis Vol. 361; no. 1; pp. 67 - 72 |
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| Main Authors: | , , , |
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| Language: | English |
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11.01.2019
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| ISSN: | 1615-4150, 1615-4169 |
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| Abstract | An effective and stable polystyrene supported rhodium (Rh@PS) nano‐catalyst has been synthesized by following reduction‐deposition approach and applied for the selective benzimidazoles synthesis from 1,2‐phenylenediamines and ethanol/methanol as C2H3/CH source. The ethanol/methanol in the presence of trace amounts of aerobic oxygen under Rh@PS catalysed condition, first participated in oxidation of alcohol followed by consecutive condensation, cyclization and hydrogen elimination reactions with 1,2‐phenylenediamine gave the desired products in good yields. The Rh@PS catalyst in a single system performed both oxidation and reduction reactions in a selective/specific manner and applied for large substrate scope. Easy recovery, handling, stability, recyclability of the catalyst and less chance of metal contamination with the products are the added advantages of the process. |
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| AbstractList | An effective and stable polystyrene supported rhodium (Rh@PS) nano‐catalyst has been synthesized by following reduction‐deposition approach and applied for the selective benzimidazoles synthesis from 1,2‐phenylenediamines and ethanol/methanol as C2H3/CH source. The ethanol/methanol in the presence of trace amounts of aerobic oxygen under Rh@PS catalysed condition, first participated in oxidation of alcohol followed by consecutive condensation, cyclization and hydrogen elimination reactions with 1,2‐phenylenediamine gave the desired products in good yields. The Rh@PS catalyst in a single system performed both oxidation and reduction reactions in a selective/specific manner and applied for large substrate scope. Easy recovery, handling, stability, recyclability of the catalyst and less chance of metal contamination with the products are the added advantages of the process. |
| Author | Sharma, Saurabh Das, Pralay Sharma, Ajay Yamini |
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| Copyright | 2019 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim |
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| SubjectTerms | Catalysis Catalysts Chemical reduction Chemical synthesis Condensates Ethanol ethanol/methanol as alkylating agent heterogeneous catalyst Methanol N-alkylation Nitrogen heterocycles Oxidation Phenylenediamine Polystyrene resins Recovering Recyclability Rhodium rhodium nanoparticles Substrates supported catalyst |
| Title | Supported Rhodium (Rh@PS) Catalyzed Benzimidazoles Synthesis Using Ethanol/Methanol as C2H3/CH Source |
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