Welcome to China Surfactant Detergent & Cosmetics, Today is
China Surfactant Detergent & Cosmetics ›› 2021, Vol. 51 ›› Issue (4): 272-280.doi: 10.3969/j.issn.1001-1803.2021.04.002
• Lecture of science and technology • Previous Articles Next Articles
CHEN Feng-feng1,2(
),QI Jia-yue1,2,NI Xin-jiong1,2,LI Yun-xing1,2,YANG Cheng1,2,SUN Ya-juan1,2()
Received:2021-03-18
Online:2021-04-22
Published:2021-04-27
Contact:
Ya-juan SUN
E-mail:cff@jiangnan.edu.cn;cmsun@jiangnan.edu.cn
CLC Number:
CHEN Feng-feng,QI Jia-yue,NI Xin-jiong,LI Yun-xing,YANG Cheng,SUN Ya-juan. Cosmetic emulsions and new technologies of emulsification (II) Construction and application of water-in-water emulsions[J].China Surfactant Detergent & Cosmetics, 2021, 51(4): 272-280.
Fig. 1
Ternary phase diagram of mixed polymer solution (a) (reprinted from Ref. [6]); Phase diagram of gelatin / maltodextrin mixture (b) (reprinted from Ref. [7])"
Fig. 2
Schematic diagram of preparation of water-in-water emulsions by capillary microfluidic device (a) (reprinted from Ref. [11]); (b) (reprinted from Ref. [12])"
Fig. 3
Confocal optical micrographs showing the microstructure evolution of water-in-water droplets (a) (reprinted from Ref. [16]); water-in-water droplets produce different morphologies with the change of shear rate (b) (reprinted from Ref. [17])"
Fig. 4
Polymer fraction of gelatin (a); relative total polymer concentration calculated in the phase boundary zone for the chemical system (b) (reprinted from Ref. [24])"
Fig. 5
Schematic diagram of protein stabilized water-in-water emulsion (a) (reprinted from Ref. [31]); schematic diagram of triblock copolymer stabilized water-in-water emulsion (b) (reprinted from Ref. [30]); schematic diagram of water-in-water emulsions stabilized by gel method (c) (reprinted from Ref. [32])"
Fig. 6
Illustration of RNA- and DNA-loaded water-in-water emulsions (a) (reprinted from Ref. [43]); Proof-of-concept image of single cell encapsulation (b) (reprinted from Ref. [12])"
| [1] | Beijerinck M W. Ueber eine Eigentümlichkeit der löslichen Stärke[J]. Zentralbl Bakteriol Parasitenkd Infekt, 1896,2:697-699. |
| [2] | Heriberto C J. Theory of phase formation in aqueous two-phase systems[J]. Journal of Chromatography B: Biomedical Sciences and Applications, 1996,680:3-30. |
| [3] |
Hatti-Kaul R. Aqueous two-phase systems: A general overview[J]. Molecular Biotechnology, 2001,19:269-277.
pmid: 11721623 |
| [4] | Jordi E. Water-in-water (W/W) emulsions[J]. Current Opinion in Colloid & Interface Science, 2016,25:109-119. |
| [5] | Grinberg V Y, Tolstoguzov V B. Thermodynamic incompatibility of proteins and polysaccharides in solutions[J]. Food Hydrocolloids, 1997,11(2) : 145-158. |
| [6] | Piculell L, Lindman B. Association and segregation in aqueous polymer/polymer, polymer/surfactant, and surfactant/surfactant mixtures: Similarities and differences[J]. Advances in Colloid & Interface Science, 1992,41:149-178. |
| [7] | Norton I T, Frith W J. Microstructure design in mixed biopolymer composites[J]. Food Hydrocolloids, 2001,15(4-6):543-553. |
| [8] | Polyakov V I, Grinberg V Y, Tolstoguzov V B. Thermodynamic incompatibility of proteins[J]. Food Hydrocolloids, 1997,11(2) : 171-180. |
| [9] | Antonov Y A, Moldenaers P. Structure formation and phase-separation behaviour of aqueous casein-alginate emulsions in the presence of strong polyelectrolyte[J]. Food Hydrocolloids, 2011,25(3) : 350-360. |
| [10] | Antonov Y A, Wolf B A, Moldenaers P. Inducing mixing of water-in water bsa/dextran emulsion by a strong polyelectrolyte[J]. Food Hydrocolloids, 2015,43:243-251. |
| [11] | Cheung S H, Varnell J, Weitz D A. Microfluidic fabrication of water-in-water (w/w) jets and emulsions[J]. Biomicrofluidics, 2012,6(1) : 12808-128089. |
| [12] | Moon B U, Abbasi N, Jones S G, et al. Water-in-water droplets by passive microfluidic flow focusing[J]. Analytical Chemistry, 2016,88:3982-3989. |
| [13] | Stokes J R, Wolf B, Frith W J. Phase-separated biopolymer mixture rheology: Prediction using a viscoelastic emulsion model[J]. Journal of Rheology, 2001,45(5) : 1173-1191. |
| [14] | Zhang J, Jongkook. Water-in-water pickering emulsion stabilized by polydopamine particles and crosslinking[J]. Biomacromolecules, 2019,20:204-211. |
| [15] |
Tea L, Nicolai T, Renou F. Stabilization of water-in-water emulsions by linear homo-polyelectrolytes[J]. Langmuir, 2019,35(27) : 9029-9036.
pmid: 31192605 |
| [16] | Butler M F, Heppenstall-Butler M. Phase separation in gelatin/dextran and gelatin/maltodextrin mixtures[J]. Food Hydrocolloids, 2003,17(6) : 815-830. |
| [17] | Spyropoulos F, Frith W J, Norton I T, et al. Sheared aqueous two-phase biopolymer-surfactant mixtures[J]. Food Hydrocolloids, 2008,22(1) : 121-129. |
| [18] | Poortinga A T. Microcapsules from self-assembled colloidal particles using aqueous phase-separated polymer solutions[J]. Langmuir, 2008,24(5) : 1644-1647. |
| [19] | Schmidt B V K J. Double hydrophilic block copolymer self‐assembly in aqueous solution[J]. Macromolecular Chemistry and Physics, 2018,219:1700494. |
| [20] |
Keating C D. Aqueous phase separation as a possible route to compartmentalization of biological molecules[J]. Accounts of Chemical Research, 2012,45(12) : 2114-2124.
pmid: 22330132 |
| [21] | Mora-Huertas C E, Fessi H, Elaissari A. Polymer-based nanocapsules for drug delivery[J]. International Journal of Pharmaceutics, 2010,385(1/2):113-142. |
| [22] | Pichavant L López-González M J Favereaux A, et al. Thermosensitive polynorbornene poly(ethylene oxide) nanoparticles loaded with oligodnas: An innovative approach for acting on cancer-associated pain[J]. Polymer Chemistry, 2018,9:362-371. |
| [23] |
Gaitzsch J, Huang X, Voit B. Engineering functional polymer capsules toward smart nanoreactors[J]. Chemical Reviews, 2016,116:1053-1093.
pmid: 26322859 |
| [24] | Mark V, Joeri O, Ingo S J, et al. Water-in-water emulsions stabilized by nanoplates[J]. ACS Macro Letters, 2015,4(9) : 965-968. |
| [25] |
Maestro A, Gutiérrez J M, Santamaría E, et al. Rheology of water-in-water emulsions: Caseinate-pectin and caseinate-alginate systems[J]. Carbohydrate Polymers, 2020,249:116799.
pmid: 32933657 |
| [26] | Antonov Y A, Puyvelde P V, Moldenaers P. Interfacial tension of aqueous biopolymer mixtures close to the critical point[J]. International Journal of Biological Macromolecules, 2004,34(1/2):29-35. |
| [27] | Scholten E, Visser J E, Sagis L M C, et al. Ultralow interfacial tensions in an aqueous phase-separated gelatin/dextran and gelatin/gum arabic system: A comparison[J]. Langmuir, 2004,20(6) : 2292-2297. |
| [28] |
Vis M, Peters V F D, Blokhuis E M, et al. Decreased interfacial tension of demixed aqueous polymer solutions due to charge[J]. Physical Review Letters, 2015,115(7) : 078303.
doi: 10.1103/PhysRevLett.115.078303 pmid: 26317748 |
| [29] | Vis M, Peters V F D, Blokhuis E M, et al. Effects of electric charge on the interfacial tension between coexisting aqueous mixtures of polyelectrolyte and neutral polymer[J]. Macromolecules, 2015,48:7335-7345. |
| [30] | Buzza D M A, Fletcher P D I, Georgiou T K, et al. Water-in-water emulsions based on incompatible polymers and stabilized by triblock copolymers-templated polymersomes[J]. Langmuir, 2013,29(48) : 14804-14814. |
| [31] |
Gonzalez-Jordan A, Nicolai T, Benyahia L. Influence of the protein particle morphology and partitioning on the behavior of particle-stabilized water-in-water emulsions[J]. Langmuir, 2016,32:7189-7197.
doi: 10.1021/acs.langmuir.6b01993 pmid: 27333940 |
| [32] |
Ben A E, Cochereau R, Dechance C, et al. Water-in-water emulsion gels stabilized by cellulose nanocrystals[J]. Langmuir, 2018,34:6887-6893.
pmid: 29779373 |
| [33] | Murray B S, Phisarnchananan N. The effect of nanoparticles on the phase separation of waxy corn starch+locust bean gum or guar gum[J]. Food Hydrocolloids, 2014,42:92-99. |
| [34] | Firoozmand H, Rousseau D. Tailoring the morphology and rheology of phase-separated biopolymer gels using microbial cells as structure modifiers[J]. Food Hydrocolloids, 2014,42:204-214. |
| [35] |
Nguyen B T, Nicolai T, Benyahia L. Stabilization of water-in-water emulsions by addition of protein particles[J]. Langmuir, 2013,29(34) : 10658-10664.
pmid: 23895275 |
| [36] | Jordán A. New water/water emulsions stabilized by pickering effect. Cristallography[D]. Le Mans: Université du Maine, 2018. |
| [37] | Franssen O, Hennink W E. A novel preparation method for polymeric microparticles without the use of organic solvents[J]. International Journal of Pharmaceutics, 1998,168(1) : 1-7. |
| [38] | Franssen O, Stenekes R J H, Hennink W E. Controlled release of a model protein from enzymatically degrading dextran microspheres[J]. Journal of Controlled Release, 1999,59(2) : 219-228. |
| [39] |
Nguyen B T, Wang W, Saunders B R, et al. pH-responsive water-in-water pickering emulsions[J]. Langmuir, 2015,31(12) : 3605-3611.
pmid: 25743065 |
| [40] | Souza B S, Marcelino H R, Francisco Alexandrino J, et al. Water-in-water emulsion as a new approach to produce mesalamine-loaded xylan-based microparticles[J]. Applied Sciences, 2019,9(17) : 3519. |
| [41] | Derya A, Seda K. Water-in-water emulsion based synjournal of hydrogel nanospheres with tunable release kinetics[J]. JOM, 2017,69(7) : 1185-1194. |
| [42] |
Chen J F, Guo J, Liu S H, et al. Zein Particle-Stabilized Water-In-Water Emulsion as a Vehicle for Hydrophilic Bioactive Compound Loading of Riboflavin[J]. Journal of Agricultural and Food Chemistry, 2019,67:9926-9933.
doi: 10.1021/acs.jafc.9b02415 pmid: 31398027 |
| [43] |
Dewey D C, Strulson C A, Cacace D N, et al. Bioreactor droplets from liposome-stabilized all-aqueous emulsions[J]. Nature Communications, 2014,5:4670.
pmid: 25140538 |
| [44] | Cacace D, Rowland A, Stapleton J J, et al. Aqueous emulsion droplets stabilized by lipid vesicles as microcompartments for biomimetic mineralization[J]. Langmuir, 2015: 150930192053002. |
| [1] | Xiaohong Pan, Ziqi Gao, Zhen Chen, Shuai Yin, Haiping Huang, Bin Hu. Discussion on the current situation of research and management on the stability of cosmetic products in China [J]. China Surfactant Detergent & Cosmetics, 2024, 54(2): 201-208. |
| [2] | Yaru Wang, Tingyuan Mo, Hongxia Lai, Yue Zhou, Jiaying Xie, Jianhua Tan. Analysis of the causes of skin irritation of niacinamide cosmetics based on patch test and stability test [J]. China Surfactant Detergent & Cosmetics, 2024, 54(1): 51-56. |
| [3] | Wang Huazheng, Zhang Liang, Kang Xin, Kang Wanli, Li Zhe, Yang Hongbin. Effect of CO2 on physical properties of produced oil and water in Changqing and emulsion stabilization mechanism [J]. China Surfactant Detergent & Cosmetics, 2023, 53(6): 617-624. |
| [4] | Zhen Enlong, Zhang Wen, Qian Zhen, Du Ruotong, Wang Yang. Construction and plugging performance evaluation of emulsified thermosetting resin system [J]. China Surfactant Detergent & Cosmetics, 2023, 53(6): 649-657. |
| [5] | Ding Zhengqing, Wu Yingyi, Wang Weiyun, Huang Xujuan, Cai Zhaosheng. Study on Pickering emulsion stabilized by hydroxyethyl cellulose/nanocellulose and its rheological properties [J]. China Surfactant Detergent & Cosmetics, 2023, 53(3): 245-252. |
| [6] | Yang Chao, Tong Zhiming, Wang Zhansheng, Chen Wu. Study on the influence mechanisms of polymers and solid particles on the stability of crude oil emulsion [J]. China Surfactant Detergent & Cosmetics, 2023, 53(10): 1156-1165. |
| [7] | Guo Fang. Influence of emulsifiers and thickener on formation of low-viscosity liquid crystal emulsions [J]. China Surfactant Detergent & Cosmetics, 2023, 53(1): 16-23. |
| [8] | Yan Yongli,Cai Yuxiu,Dou Longlong,Cao Yuxia. Research progress in the dynamics of liquid drainage from complex foam system [J]. China Surfactant Detergent & Cosmetics, 2022, 52(9): 1011-1015. |
| [9] | Dong Leilei,Huang Tianyi,Duan Guolan,Chen Hanjun,Zhang Wanping,Zhang Qianjie. Effects of rheological modifiers on the rheological properties and stability of W/O emulsions [J]. China Surfactant Detergent & Cosmetics, 2022, 52(5): 457-467. |
| [10] | Xu Jie,Zhu Yuan,Xu Xiangliang,Bao Hongjie. Study on multidimensional evaluation method of foam performance of daily chemicals [J]. China Surfactant Detergent & Cosmetics, 2022, 52(5): 506-513. |
| [11] | Guo Hua,Xu Jin,He Yunping,Xu Hujun. Effects of potassium cocoyl hydrolyzed oat protein on the performance of the amino acid facial cleanser [J]. China Surfactant Detergent & Cosmetics, 2022, 52(12): 1307-1313. |
| [12] | Zhang Hucheng,Yang Guowei,Yang Jun,Fan Haitao,Luo Shuai,Liu Linying. Preparation of cordycepin nanoemulsion and its repair mechanism on the photoaged skin [J]. China Surfactant Detergent & Cosmetics, 2022, 52(10): 1072-1080. |
| [13] | Shen Yongqiang,Sun Yajuan,Yang Cheng,Wang Jing. Study on the preparation and emulsifying properties of peach seed protein isolate nanoparticles [J]. China Surfactant Detergent & Cosmetics, 2021, 51(9): 809-816. |
| [14] | Liu Guanting,Hu Liuyun,Ma Shijing,Han Ping,Lin Li,Du Zhiyun. Process optimization and anti-inflammatory activity of the curcumin emulsion [J]. China Surfactant Detergent & Cosmetics, 2021, 51(8): 741-747. |
| [15] | YANG Jia-hui,LIANG Rong,YANG Cheng. Cosmetic emulsions and new technologies of emulsification (Ⅲ) Stability of multiple emulsions and their application in cosmetics [J]. China Surfactant Detergent & Cosmetics, 2021, 51(6): 477-484. |
|
