The potential of Sn–B–NaY–ZE catalyst for transformation of citronellal-rich essential oils to menthol-enrich oil via optimization through single factorial design to enhance their organoleptic profile and biological activities

Citronellal-rich essential oils of Cymbopogon winterianus and Corymbia citriodora were catalytically modified in a two-step process to produce menthol and other terpene alcohols using Sn–B–NaY–ZE and 1%Pd/AC, successively. The reaction parameters such as solvent selection, reaction time, temperature...

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Published in	Research on chemical intermediates Vol. 49; no. 9; pp. 3909 - 3931
Main Authors	Kumar, Prashant, Yadav, Anju, Chanotiya, Chandan Singh, Sahoo, Debasmita, Bawitlung, Laldingngheti, Pal, Anirban, Mohapatra, Priyabrat, Rout, Prasant Kumar
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.09.2023 Springer Nature B.V
Subjects	Alcohols Antimicrobial agents Antioxidants Catalysis Catalysts Chemistry Chemistry and Materials Science Citronellal Cosmeceuticals Cyclohexane Design optimization Essential oils Factorial design Freezing Inorganic Chemistry Low temperature Menthol Oils & fats Oxygen enrichment Oxygenation Physical Chemistry Synergistic effect Organoleptic profile Menthol Bioactivity Citronallal-rich oil Sn–B–NaY–ZE
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Abstract	Citronellal-rich essential oils of Cymbopogon winterianus and Corymbia citriodora were catalytically modified in a two-step process to produce menthol and other terpene alcohols using Sn–B–NaY–ZE and 1%Pd/AC, successively. The reaction parameters such as solvent selection, reaction time, temperature, and catalyst loading were optimized using a single factorial design. In the first step, the citronellal was cyclized to isopulegol isomers with 99% selectivity at 80 °C for 90 min using 10% catalyst loading (Sn–B–NaY–ZE) in cyclohexane medium. Further, in the second step, this isopulegol was reduced to menthol using 1%Pd/AC. A part of menthol was isolated from the modified oils under low-temperature freezing (− 40 °C) process. Further modified menthol-rich essential oils and spent oil (after partial separation of menthol) were tested against the antibacterial and antioxidant activities. The results reveal that the modified spent oil of C. citriodora is effective against S. aureus and S. typhimurium bacterial strains. It was observed that the spent oil showed potent antimicrobial activities due to the enrichment of oxygenated monoterpenoids. Therefore, it suggested that the significant antimicrobial activity is due to the synergistic effects of menthol and other oxygenated monoterpenoids. Moreover, the spent oils have shown better antioxidant activities. The menthol in modified oil has changed the olfactometry to a sweet minty odor with cooling sensation. Hence, the modified essential oils are organoleptically superior due to their enhanced percentage of terpene alcohols and found potential application in various cosmeceutical preparations.
AbstractList	Citronellal-rich essential oils of Cymbopogon winterianus and Corymbia citriodora were catalytically modified in a two-step process to produce menthol and other terpene alcohols using Sn–B–NaY–ZE and 1%Pd/AC, successively. The reaction parameters such as solvent selection, reaction time, temperature, and catalyst loading were optimized using a single factorial design. In the first step, the citronellal was cyclized to isopulegol isomers with 99% selectivity at 80 °C for 90 min using 10% catalyst loading (Sn–B–NaY–ZE) in cyclohexane medium. Further, in the second step, this isopulegol was reduced to menthol using 1%Pd/AC. A part of menthol was isolated from the modified oils under low-temperature freezing (− 40 °C) process. Further modified menthol-rich essential oils and spent oil (after partial separation of menthol) were tested against the antibacterial and antioxidant activities. The results reveal that the modified spent oil of C. citriodora is effective against S. aureus and S. typhimurium bacterial strains. It was observed that the spent oil showed potent antimicrobial activities due to the enrichment of oxygenated monoterpenoids. Therefore, it suggested that the significant antimicrobial activity is due to the synergistic effects of menthol and other oxygenated monoterpenoids. Moreover, the spent oils have shown better antioxidant activities. The menthol in modified oil has changed the olfactometry to a sweet minty odor with cooling sensation. Hence, the modified essential oils are organoleptically superior due to their enhanced percentage of terpene alcohols and found potential application in various cosmeceutical preparations. Citronellal-rich essential oils of Cymbopogon winterianus and Corymbia citriodora were catalytically modified in a two-step process to produce menthol and other terpene alcohols using Sn–B–NaY–ZE and 1%Pd/AC, successively. The reaction parameters such as solvent selection, reaction time, temperature, and catalyst loading were optimized using a single factorial design. In the first step, the citronellal was cyclized to isopulegol isomers with 99% selectivity at 80 °C for 90 min using 10% catalyst loading (Sn–B–NaY–ZE) in cyclohexane medium. Further, in the second step, this isopulegol was reduced to menthol using 1%Pd/AC. A part of menthol was isolated from the modified oils under low-temperature freezing (− 40 °C) process. Further modified menthol-rich essential oils and spent oil (after partial separation of menthol) were tested against the antibacterial and antioxidant activities. The results reveal that the modified spent oil of C. citriodora is effective against S. aureus and S. typhimurium bacterial strains. It was observed that the spent oil showed potent antimicrobial activities due to the enrichment of oxygenated monoterpenoids. Therefore, it suggested that the significant antimicrobial activity is due to the synergistic effects of menthol and other oxygenated monoterpenoids. Moreover, the spent oils have shown better antioxidant activities. The menthol in modified oil has changed the olfactometry to a sweet minty odor with cooling sensation. Hence, the modified essential oils are organoleptically superior due to their enhanced percentage of terpene alcohols and found potential application in various cosmeceutical preparations.
Author	Rout, Prasant Kumar Yadav, Anju Chanotiya, Chandan Singh Kumar, Prashant Bawitlung, Laldingngheti Mohapatra, Priyabrat Pal, Anirban Sahoo, Debasmita
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Snippet	Citronellal-rich essential oils of Cymbopogon winterianus and Corymbia citriodora were catalytically modified in a two-step process to produce menthol and... Citronellal-rich essential oils of Cymbopogon winterianus and Corymbia citriodora were catalytically modified in a two-step process to produce menthol and...
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SubjectTerms	Alcohols Antimicrobial agents Antioxidants Catalysis Catalysts Chemistry Chemistry and Materials Science Citronellal Cosmeceuticals Cyclohexane Design optimization Essential oils Factorial design Freezing Inorganic Chemistry Low temperature Menthol Oils & fats Oxygen enrichment Oxygenation Physical Chemistry Synergistic effect
Title	The potential of Sn–B–NaY–ZE catalyst for transformation of citronellal-rich essential oils to menthol-enrich oil via optimization through single factorial design to enhance their organoleptic profile and biological activities
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