[1] |
Dostert N, Roque J, Brokamp G, et al. Factsheet: datos botánicos de Sacha Inchi. Plukenetia volubilis L.[J]. Lima, 2009, 3-5.
|
[2] |
Lin Jinming, Xie Lanhua, Li Junjian, et al. Research progress in the processing and comprehensive utilization of Sacha Inchi[J]. Science and Technology of Food Industry, 2021, 42 (5) : 335-341.
|
[3] |
National Health and Family Planning Commission. Announcement on the approval of 7 new resource foods such as tea tree flowers[EB/OL]. [2013-01-04]. http://www.moh.gov.cn/mohwsjdj/s7891/201301/54a35d82b99b48a8bcfd6cf183dee0f3.html.
|
[4] |
Chirinos R, Aquino M, Pedreschi R, et al. Optimized methodology for Alkaline and enzyme‐assisted extraction of protein from Sacha Inchi (Plukenetia volubilis) kernel cake[J]. Journal of Food Process Engineering, 2017, 40: 12412-12419.
|
[5] |
Liang Zuanhao, Lin Fengying, Li Pan, et al. Optimization of Sacha Inchi peptide preparation by enzymolysis combined with pretreatment methods[J]. Science and Technology of Food Industry, 2018, 39 (12) : 147-153.
|
[6] |
Rawdkuen S, Murdayanti D, Ketnawa S, et al. Chemical properties and nutritional factors of pressed-cake from tea and Sacha Inchi seeds[J]. Food Bioscience, 2016, 15: 64-71.
|
[7] |
Gutiérrez, Felipe L, Rosada, et al. Chemical composition of Sacha Inchi (Plukenetia volubilis L.) seeds and characteristics of their lipid fraction[J]. Grasas Y Aceites, 2011, 62 (1) : 76-83.
|
[8] |
Zhang Xuechun, Tian Jing, Wang Zhenxing, et al. Functional properties of Sacha Inchi protein[J]. China Oils and Fats, 2018, 43 (3) : 35-38.
|
[9] |
Lai Yuping, Lin Jinming, An Miaoqing, et al. Extraction technology of polypeptide from Plukenetia volubilis Linneo meal[J]. Food Research and Development, 2023, 44 (20) : 167-174.
|
[10] |
Cai Guoqiang, Chen Yingying, Pan Wei, et al. Formation of liquid crystal structure by using an polyglycerol ester derived emulsifier PolyAquol-2W[J]. Flavour Fragrance Cosmetics, 2023 (5) : 25-29, 126.
|
[11] |
Kong Xiangye, Gao Ying, Li Lixian, et al. Effects of composition and constituent ratio of oil phase on formation of liquid crystals and stability of cream[J]. Flavour Fragrance Cosmetics, 2020 (3) : 21-24, 28.
|
[12] |
Meng R, Wu Z Z, Xie Q T, et al. Zein/carboxymethyl dextrin nanoparticles stabilized pickering emulsions as delivery vehicles: Effect of interfacial composition on lipid oxidation and in vitro digestion[J]. Food Hydrocolloids, 2020, 108: 106020.
|
[13] |
Junginer H, Akkermans A, Heering W. The ratio of interlamellarly fixed water to bulk water in O/W creams[J]. J. Soc. Cosmet. Chem., 1984, 35: 45-57.
|
[14] |
Wang Sen, Jiang Xu, Zhu Weifeng, et al. Stability of O/W cream with liquid-crystalline gel network formed by non-ionic emulsifiers[J]. Chinese Journal of Pharmaceuticals, 2013, 44 (5) : 456-460.
|
[15] |
Jiang Xu, Wang Sen, Zhu Weifeng, et al. Research progress on cream with liquid crystalline gel network microstructure formation theory and characterization[J]. Chinese Journal of Experimental Traditional Medical Formulae, 2013, 19 (20) : 330-336.
|
[16] |
Jia Bing. Study on the regularity of liquid crystal emulsion[D]. Shanghai: Shanghai Institute of Technology, 2018.
|
[17] |
Dong Leilei, Huang Tianyi, Duan Guolan, et al. Effects of rheological modifiers on the rheological properties and stability of W/O emulsions[J]. China Surfactant Detergent & Cosmetics, 2020, 52 (5) : 457-467.
|
[18] |
Liu Zhihao, Heng Weili, Qian Shuai, et al. Advances in rheological study of topical preparations for skin[J]. J. China Pharm. Univ., 2022, 53 (1) : 105-112.
|
[19] |
Li Liang, Zhang Xiaoying, Zhu Jianyu, et al. Effect of soybean-whey mixed protein on stability and rheological properties of O/W emulsion[J]. Transactions of the Chinese Society for Agricultural Machinery, 2019, 50 (12) : 372-379.
|
[20] |
Nguyen X H, Puri A, Banga K A. Methods to simulate rubbing of topical formulation for in vitro skin permeation studies[J]. International Journal of Pharmaceutics, 2017, 519 (1) : 22-33.
|