Study on improving menthol adsorption performance of silica particles by olege
ObjectiveTo improve the menthol adsorption properties of silica.MethodsFragrance-absorbing particles were prepared using silica adsorption-melted menthol oleogel. The impact of palm oil addition ratio on the oleogel hardness, oil binding capacity, and thermodynamic properties was investigated. Compa...
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| Format: | Article |
| Language: | English |
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The Editorial Office of Food and Machinery
2024-09-01
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| Series: | Shipin yu jixie |
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| Online Access: | http://www.ifoodmm.com/spyjx/article/abstract/20240906?st=article_issue |
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| author | WEI Yulei GUO Peng GAO Yun LIU Qun ZHANG Haoyang ZOU Liqiang |
| author_facet | WEI Yulei GUO Peng GAO Yun LIU Qun ZHANG Haoyang ZOU Liqiang |
| author_sort | WEI Yulei |
| collection | DOAJ |
| description | ObjectiveTo improve the menthol adsorption properties of silica.MethodsFragrance-absorbing particles were prepared using silica adsorption-melted menthol oleogel. The impact of palm oil addition ratio on the oleogel hardness, oil binding capacity, and thermodynamic properties was investigated. Comparative particles microstructure, flow properties, and the loaded menthol encapsulation efficiency, storage stabilityand release characteristics to assess the enhancement of silica particle adsorption properties by the oleogel.ResultsWhen palm oil addition ratio were 50% and 80%, the oil binding capacity of oleogels were over 90%, and the hardness and peak melting temperature of the gels increased with the palm oil ratio. Microscopic observations revealed the adsorption of oleogels on the surface of silica particles. Encapsulation efficiency of menthol increased from 73.43% to 82.05% and 91.19%, while storage endpoint encapsulation efficiency rose from 30.77% to 69.83% and 80.28%. Concurrently, menthol sustained-release properties were enhanced.ConclusionOleogel effectively improves the adsorption properties of silica particles for menthol. |
| format | Article |
| id | doaj-art-99520dd7d1dc4714963cd5135d239f55 |
| institution | OA Journals |
| issn | 1003-5788 |
| language | English |
| publishDate | 2024-09-01 |
| publisher | The Editorial Office of Food and Machinery |
| record_format | Article |
| series | Shipin yu jixie |
| spelling | doaj-art-99520dd7d1dc4714963cd5135d239f552025-08-20T02:04:52ZengThe Editorial Office of Food and MachineryShipin yu jixie1003-57882024-09-01409444910.13652/j.spjx.1003.5788.2024.600811003-5788(2024)09-0044-06Study on improving menthol adsorption performance of silica particles by olegeWEI Yulei0GUO Peng1GAO Yun2LIU Qun3ZHANG Haoyang4ZOU Liqiang5China Tobacco Shandong Industrial Co., Ltd., Jinan, Shandong250100, ChinaChina Tobacco Shandong Industrial Co., Ltd., Jinan, Shandong250100, ChinaChina Tobacco Shandong Industrial Co., Ltd., Jinan, Shandong250100, ChinaChina Tobacco Shandong Industrial Co., Ltd., Jinan, Shandong250100, ChinaChina Tobacco Shandong Industrial Co., Ltd., Jinan, Shandong250100, ChinaState Key Laboratory of Food Science and Resources, Nanchang University, Nanchang, Jiangxi330047, ChinaObjectiveTo improve the menthol adsorption properties of silica.MethodsFragrance-absorbing particles were prepared using silica adsorption-melted menthol oleogel. The impact of palm oil addition ratio on the oleogel hardness, oil binding capacity, and thermodynamic properties was investigated. Comparative particles microstructure, flow properties, and the loaded menthol encapsulation efficiency, storage stabilityand release characteristics to assess the enhancement of silica particle adsorption properties by the oleogel.ResultsWhen palm oil addition ratio were 50% and 80%, the oil binding capacity of oleogels were over 90%, and the hardness and peak melting temperature of the gels increased with the palm oil ratio. Microscopic observations revealed the adsorption of oleogels on the surface of silica particles. Encapsulation efficiency of menthol increased from 73.43% to 82.05% and 91.19%, while storage endpoint encapsulation efficiency rose from 30.77% to 69.83% and 80.28%. Concurrently, menthol sustained-release properties were enhanced.ConclusionOleogel effectively improves the adsorption properties of silica particles for menthol.http://www.ifoodmm.com/spyjx/article/abstract/20240906?st=article_issueoleogelmentholsilica particlesencapsulation efficiencysustained-release |
| spellingShingle | WEI Yulei GUO Peng GAO Yun LIU Qun ZHANG Haoyang ZOU Liqiang Study on improving menthol adsorption performance of silica particles by olege Shipin yu jixie oleogel menthol silica particles encapsulation efficiency sustained-release |
| title | Study on improving menthol adsorption performance of silica particles by olege |
| title_full | Study on improving menthol adsorption performance of silica particles by olege |
| title_fullStr | Study on improving menthol adsorption performance of silica particles by olege |
| title_full_unstemmed | Study on improving menthol adsorption performance of silica particles by olege |
| title_short | Study on improving menthol adsorption performance of silica particles by olege |
| title_sort | study on improving menthol adsorption performance of silica particles by olege |
| topic | oleogel menthol silica particles encapsulation efficiency sustained-release |
| url | http://www.ifoodmm.com/spyjx/article/abstract/20240906?st=article_issue |
| work_keys_str_mv | AT weiyulei studyonimprovingmentholadsorptionperformanceofsilicaparticlesbyolege AT guopeng studyonimprovingmentholadsorptionperformanceofsilicaparticlesbyolege AT gaoyun studyonimprovingmentholadsorptionperformanceofsilicaparticlesbyolege AT liuqun studyonimprovingmentholadsorptionperformanceofsilicaparticlesbyolege AT zhanghaoyang studyonimprovingmentholadsorptionperformanceofsilicaparticlesbyolege AT zouliqiang studyonimprovingmentholadsorptionperformanceofsilicaparticlesbyolege |