表面活性剂在植物活性成分提取中的应用

doi:10.3969/j.issn.1001-1803.2019.11.009

日用化学工业 ›› 2019, Vol. 49 ›› Issue (11): 748-752.doi: 10.3969/j.issn.1001-1803.2019.11.009

表面活性剂在植物活性成分提取中的应用

李陆军^1,⁴,彭胜^2,³,霍延平¹,王志宏⁴,杨秋玲⁴,王翔^2,³,彭密军⁴()

1. 广东工业大学轻工化工学院,广东广州 510006
2. 吉首大学杜仲综合利用技术国家地方联合工程实验室,湖南张家界 427000
3. 吉首大学林产化工工程湖南省重点实验室,湖南张家界 427000
4. 广东省测试分析研究所广东省分析测试技术公共实验室,广东广州 510070

收稿日期:2019-03-28 修回日期:2019-10-30 出版日期:2019-11-22 发布日期:2019-11-26
通讯作者: 彭密军
作者简介:李陆军（1993-）,男,河南人,硕士研究生,电话：13113962986,E-mail： 570522940@qq.com。
基金资助:
国家自然科学基金资助项目(31660181);杜仲综合利用技术国家地方联合工程实验室项目资助(NLE201602);杜仲综合利用技术国家地方联合工程实验室项目资助(NLE201704);广东省科学院发展专项资金项目资助(2019GDASYL-0502003)

Application of surfactant in the extraction of activeconstituents from plants

LI Lu-jun^1,⁴,PENG Sheng^2,³,HUO Yan-ping¹,WANG Zhi-hong⁴,YANG Qiu-ling⁴,WANG Xiang^2,³,PENG Mi-jun⁴()

1. School of Chemical Engineering and Light Industry, Guangdong University of Technology, Guangzhou, Guangdong 510006, China
2. National & Local United Engineering Laboratory of Integrative Utilization Technology of Eucommia ulmoides, Jishou University, Zhangjiajie, Hunan 427000, China
3. Key Laboratory of Human Forest Products and Chemical Industry Engineering, Jishou University, Zhangjiajie, Hunan 427000, China
4. Guangdong Provincial Public Laboratory of Analysis and Testing Technology, Guangdong Institute of Analysis,Guangzhou, Guangdong 510070, China

Received:2019-03-28 Revised:2019-10-30 Online:2019-11-22 Published:2019-11-26
Contact: Mi-jun PENG

摘要/Abstract

摘要：

综述了表面活性剂在植物活性成分提取中的应用。主要介绍了表面活性剂在辅助提取、微乳体系提取、浊点萃取植物活性成分中的应用及其作用原理和特点,并对表面活性剂在提取植物活性成分中的应用前景进行了展望。

关键词: 表面活性剂, 辅助提取, 微乳体系提取, 浊点萃取, 活性成分

Abstract:

The application of surfactants in the extraction of plant active constituents was reviewed. The application of surfactants in auxiliary extraction, microemulsion system extraction and cloud point extraction of plant active constituents and its principle and characteristics were introduced. The application of surfactants in the extraction of plant active constituents was prospected.

Key words: surfactant, auxiliary extraction, microemulsion system extraction, cloud point extraction, active constituents

中图分类号:

TQ423

李陆军,彭胜,霍延平,王志宏,杨秋玲,王翔,彭密军. 表面活性剂在植物活性成分提取中的应用[J]. 日用化学工业, 2019, 49(11): 748-752.

LI Lu-jun,PENG Sheng,HUO Yan-ping,WANG Zhi-hong,YANG Qiu-ling,WANG Xiang,PENG Mi-jun. Application of surfactant in the extraction of activeconstituents from plants[J]. China Surfactant Detergent & Cosmetics, 2019, 49(11): 748-752.

图/表 1

参考文献 36

[1]	Naksuk A, Sabatini D A, Tongcumpou C . Microemulsion-based palm kernel oil extraction using mixed surfactant solutions[J]. Industrial Crops & Products, 2009,30(2):194-198.
[2]	Racheva R, Rahlf A F, Wenzel D , et al. Aqueous food-grade and cosmetic-grade surfactant systems for the continuous countercurrent cloud point extraction[J]. Separation and Purification Technology, 2018,202:76-85.
[3]	Li Heping. Fine chemical technology[M]. Beijing: Science Press, 2007: 33-36.
[4]	Zhao Lihong, Lu Fengling, Zhang Xuehong , et al. Isolation of ionizable red Monascus pigments after extractive fermentation in nonionic surfactant micelle aqueous solution[J]. Process Biochemistry, 2017,61:156-162.
[5]	Han Wei, Jin Lingjie, Sun Xiaohai . Ultrasonic extraction of flavonoids from cortex cuspidiae with tween-80[J]. Journal of Nanjing University of Technology (Natural Science Edition), 2012,34(4):105-109.
[6]	Gao Jing, Lv Zhiqing, Zhou Changkai , et al. Orthogonal design to optimize the extraction process of total flavonoids from mulberry seeds[J]. Pharmaceutical Research, 2012,31(12):687-689.
[7]	Han Wei, Xu Jianyu, Fang Ruozhou , et al. Extraction of mulberry flavonoids with Tween-60 co-microwave[J]. Mechanical and Electronic Information, 2014 (17):30-33.
[8]	Yang Fulian, Chen Xuqing . Study on extraction of flavonoids from buckwheat husk by ultrasonic wave and surfactant[J]. Grains and Fats, 2013 (6):46-49.
[9]	Ye Xin, Wang Hao, Hu Yang , et al. Study on ultrasonic extraction technology of radionuclide from longan with surfactant[J]. China Brewing, 2012 (12):94-97.
[10]	Nie Yang, Huan Yonghong, Li Bo , et al. Study on extraction of total flavonoids from glycyrrhizoma glycyrrhizae by surfactant and ultrasound[J]. Chinese Patent Medicine, 2013,35(9):2040-2042.
[11]	Luo Kaipei, Li Xiaofang, Lin Hao , et al. Optimization of the extraction process of total flavonoids from cynanchum rotundifolia by surfactant-ultrasound[J]. Chinese Patent Medicine, 2016 (12):2585-2589.
[12]	Nurmahani M M, Jose O C M, Paula J . Surfactant Tween-20 provides stabilisation effect on anthocyanins extracted from red grape pomace[J]. Food Chemistry, 2019,271:224-231.
[13]	Yu Zexiong, Yu Zejun, Nie Yang , et al. Study on extraction of total flavonoids from erythrone by surfactant-ultrasound[J]. The Channel of Pharmaceutical, 2014 (7) : 34-36.
[14]	Wang Xiaolin, Wang Wenjiao, Zhong Fangli , et al. Total flavonoids from astragalus membranaceus stem and their antioxidant activities were extracted with surfactant[J]. Food Research and Development, 2017 (1) : 37-42.
[15]	Ma Minglan, Liu Yang, Wang Yuan , et al. Optimization of microwave-assisted extraction conditions for the flavonoids from the cyanobactyl sulfonate[J]. Journal of Daily Chemical Industry, 2017,47(6):331-335.
[16]	Wu Zhiqiang, Xiang Ling, Chen Jing . Study on the extraction of total flavonoids from pomelo peel by microwave assisted with surfactant[J]. Chinese Journal of Modern Applied Pharmacy, 2013,30(3):271-274.
[17]	Wang Xiaolin, Wang Wenjiao, Zhong Fangli . et al. Microwave-assisted surfactant extraction of total flavonoids from platycodon grandiflorum stem and its antioxidant activity[J]. Journal of Henan University of Technology (Natural Science Edition), 2016,37(2):86-91.
[18]	Yang Yanjun, Wang Yahong, Yang Xiudong . Optimization of extraction process of total polyphenols from water centipede assisted by surfactant[J]. Journal of Jilin University of Chemical Technology, 2018,35(9):14-18.
[19]	Meng Yujia, Wang Zhiping, Shi Yuran , et al. The total polyphenols in flammulina velutipes were extracted by microwave with surfactant[J] . Modern Manufacturing, 2016 (29):33-40.
[20]	Tang Kai, Yan Jie . Study on extraction technology of balsam pear saponins by microwave and surfactant[J]. Food Science and Technology, 2015 (11):181-184.
[21]	Liu Huijin, Du Fangyan, Gao Liguo , et al. Response surface method (RSM) was used to optimize the extraction process of pectin from the residue of sea red fruit[J]. Science and Technology of Food Industry, 2014,35(21):215-219.
[22]	Ashish D Gadhave . A short review on microemulsion and its applacation in extraction of vegetable oil[J]. International Journal of Research in Engineering and Technology, 2014,3(9):147-158.
[23]	Soleiman A, Mohsen R . Food grade microemulsion systems: Canola oil/lecithin: n-propanol/water[J]. Food Chemistry, 2016,194:972-979.
[24]	Amira S, Mohamed P, Bainun I , et al. Microemulsion-based palm kernel and peanut oil extraction using nonionic surfactant brij 30 solution[J]. Malaysian Journal of Chemistry, 2013,30(2):194-198.
[25]	Liu X Y, Niu X, Feng Q J , et al. A new biocompatible microemulsion increases extraction yield and bioavailability of Andrographis paniculata[J]. Chinese Journal of Natural Medicines, 2016,14(9):683-691.
[26]	Atefeh Amiri-rigi, Soleiman A . Microemulsion-based lycopene extraction: Effect of surfactants, co-surfactants and pretreatments[J] . Food Chemistry, 2016,197:1002-1007.
[27]	Atefeh A, Soleiman A, Martin S . Enhanced lycopene extraction from tomato industrial waste using microemulsion technique: Optimization of enzymatic and ultrasound pre-treatments[J]. Innovative Food Science & Emerging Technologies, 2016 (35):160-167.
[28]	Atefeh Amiri-rigi, Soleiman A . Extraction of lycopene using a lecithin-based olive oil microemulsion[J]. Food Chemistry, 2019,272:568-573.
[29]	Gu T, Galera-Gómez . Clouding of Triton X-114: The effect of added electrolytes on the cloud point of Triton X-114 in the presence of ionic surfactants[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 1995,104(2/3):307-312.
[30]	Koshy L, Saiyad A H, Rakshit A K . The effects of various foreign substances on the cloud point of Triton X 100 and Triton X 114[J]. Colloid & Polymer Science, 1996,274(6):582-587.
[31]	Hinze W L, Pramauro E . A critical review of surfactant-mediated phase separations (cloud-point extractions): theory and applications[J]. Critical Reviews in Analytical Chemistry, 2012,24(2):133-177.
[32]	Jeon K Y, Kim J H . Optimization of micellar extraction for thepre-purification of paclitaxel from Taxus chinensis[J]. Biotechnology and Bioprocess Engineering, 2007,12(4):354-358.
[33]	Tang X, Zhu D, Huai W , et al. Simultaneous extraction and separation of flavonoids and alkaloids from Crotalaria sessiliflora L. by microwave-assisted cloud-point extraction[J]. Separation & Purification Technology, 2017,175:266-273.
[34]	Leite A C, Ferreira A M, Morais E , et al. Cloud point extraction of chlorophylls from spinach leaves using aqueous solutions of non-ionic surfactants[J]. ACS Sustainable Chemistry & Engineering, 2017,6(1):590-599.
[35]	Yin Xin, He Weiping, Huang Ju . Study on extraction technology and antioxidant activity of total flavonoids from buckwheat husk by turbidity-assisted ultrasound[J]. Chemical Reagent, 2018,40(7):633-637, 642.
[36]	Estefanía C, Carla N, Haidar E , et al. Integrated extraction and purification of soy isoflavones by using aqueous micellar systems[J]. Food Chemistry, 2016,213:514-520.

表面活性剂在植物活性成分提取中的应用

Application of surfactant in the extraction of activeconstituents from plants

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