[1] HOAR T P, SCHULMAN J H.Transparent water in oil dispersions:The oleopathic hydromicelle[J].Nature, 1943, 152:102-103.
[2] SCHULMAN J H, STOECKENIUS W, PRINCE L M.Mechanism of formation and structure of microemulsions by electron microscopy[J].The Journal of Chemical Physics, 1959, 63(10):1 677-1 680.
[3] SHUKLA T, UPMANYU N, AGRAWAL M, et al.Biomedical applications of microemulsion through dermal and transdermal route[J].Biomedicine & Pharmacotherapy, 2018, 108:1 477-1 494.
[4] SHARMA A K, GARG T, GOYAL A K, et al.Role of microemulsions in advanced drug delivery[J].Artificial Cells, Nanomedicine, and Biotechnology, 2016, 44(4):1 177-1 185.
[5] TABAR M A, RASHIDI A, ALAEI M, et al.Hybrid of quantum dots for interfacial tension reduction and reservoir alteration wettability for enhanced oil recovery (EOR)[J].Journal of Molecular Liquids, 2020, 307:112 984.
[6] JANG Y, PARK J, SONG H Y, et al.Ostwald ripening rate of orange oil emulsions:Effects of molecular structure of emulsifiers and their oil composition[J].Journal of Food Science, 2019, 84(3):440-447.
[7] GRAMPUROHIT N, RAVIKUMAR P, MALLYA R.Microemulsions for topical use[J].Indian Journal of Pharmaceutical Education and Research, 2011, 45(1):100-107.
[8] WUTTIKUL K, BOONME P.Formation of microemulsions for using as cosmeceutical delivery systems:Effects of various components and characteristics of some formulations[J].Drug Delivery and Translational Research, 2016, 6(3):254-262.
[9] MOGHIMIPOUR E, SALIMI A, CHANGIZI S.Preparation and microstructural characterization of griseofulvin microemulsions using different experimental methods:SAXS and DSC[J].Advanced Pharmaceutical Bulletin, 2017, 7(2):281-289.
[10] BOWCOTT J E,SCHULMAN J H.Emulsions control of droplet size and phase continuity in transparent oil-water dispersions stabilized with soap and alcohol[J].Z Elektrochem, 1955, 59:283-290.
[11] 郑程. 界面引发微乳聚合[D].合肥:中国科学技术大学, 2006.
ZHENG C.Interfacial initiated microemulsion polymerization[D].Hefei:University of Science and Technology of China, 2006.
[12] 李干佐, 郭荣.微乳液理论及其应用[M].北京:石油工业出版社, 1995, 273-305.
LI G Z, GUO R.Microemulsion Theory and Its Application[M].Beijing:Petroleum Industry Press, 1995, 273-305.
[13] DUN H Y, LIANG H S, ZHAN F C, et al.Influence of O/W emulsion on gelatinization and retrogradation properties of rice starch[J].Food Hydrocolloids, 2020, 103:105 652.
[14] GEORGE K.On the negative surface tension of solutions and on spontaneous emulsification[J].Langmuir, 2017, 33(40):10 550-10 560.
[15] 欧阳海峰, 林向阳, 阮榕生, 等.微乳燃料油研究进展[J].可再生能源, 2006(3):55-58.
OUYANG H F, LIN X Y, RUAN R S, et al.Research progress of microemulsion fuel oil[J].Renewable Energy, 2006(3):55-58.
[16] GU Y L, CHEN S, LIU H E, et al.Effect of monovalent anions on cationic gemini micro-emulsion[J].Chinese Journal of Chemical Engineering, 2018, 26(12):2 636-2 640.
[17] MITSOU E, PLETSA V, GEORGE T, et al.Development of a microemulsion for encapsulation and delivery of gallic acid.The role of chitosan[J].Colloids and Surfaces B:Biointerfaces, 2020, 190:110 974.
[18] SOLANS C, MORALES D, HOMS M.Spontaneous emulsification[J].Current Opinion in Colloid & Interface Science, 2016, 22:88-93.
[19] 潘国梁, 贾晓斌, 魏惠华, 等.药用微乳伪三元相图的几种制备方法比较研究[J].中国药房, 2006, 17(1):21-23.
PAN G L, JIA X B, WEI H H, et al.Comparison among several preparation methods for pseudo-ternary phase diagrams of pharmaceutical microemulsions[J].China Pharamcy, 2006, 17(1):21-23.
[20] 崔光文. 基于相反转乳化法聚氨酯纳胶囊的制备及其在芳香粘胶纤维中的应用[D].天津:天津工业大学, 2019.
CUI W G.Preparation of polyurethane nanocapsule based on phase inversion emulsification and its application in aromatic viscose fiber[J].Tianjin:Tiangong University, 2019.
[21] 习娟, 黄方方, 白燕, 等.转相乳化法制备零VOC水性醇酸乳液的实验研究[J].宁夏师范学院学报, 2016, 37(6):63-66.
XI J, HUANG F F, BAI Y, et al.Experimental study on the preparation of zero voc waterborne alkyd emulsion by phase inversion emulsification[J].Journal of Ningxia Normal University, 2016, 37(6):63-66.
[22] 金永香,连海兰.环氧树脂的相反转乳化技术研究进展[J].涂料工业, 2018, 48(9):70-76.
JIN Y X, LIAN H L.Progress in phase inversion emulsification of epoxy resin[J].Paint and Coating Industry, 2018, 48(9):70-76.
[23] 么建平. 一步相转变温度法制备聚合物包覆的O/W纳米乳液[D].济南:山东大学, 2019.
ME J P.Preparation of polymer coated O/W nano emulsion by one-step transformation temperature method[J].Jinan:Shandong University, 2019.
[24] ANTON R E, SALAGER J L.Effect of the electrolyte anion on the salinity contribution to optimum formulation of anionic surfactant microemulsions[J].Journal of Colloid and Interface Science.1990,140(1):75-81.
[25] 张婉萍, 陈雪清.含液晶结构固体脂质微粒的制备技术研究[J].日用化学工业, 2012, 42(6):436-439;468.
ZHANG W P, CHEN X Q.Preparation of solid lipid particles with liquid crystal structure[J].Daily Chemical Industry, 2012, 42(6):436-439;468.
[26] 赵剑, 黄波, 李旭林, 等.不同实验因素对柴油微乳稳定性影响的研究[J].科学中国人, 2015 (15):299-300.
ZHAO J, HUANG B, LI X L, et al.Effect of different experimental factors on the stability of diesel microemulsion[J].Scientific Chinese, 2015 (15):299-300.
[27] 田甜, 江中洋, 王中江, 等.射流空化对大豆分离蛋白-磷脂酰胆碱乳化特性的影响[J].食品科学, 2020, 41(3):99-105.
TIAN T, JIANG Z Y, WANG Z J, et al.Effect of jet cavitation on soy protein isolate-phosphatidylcholine emulsion properties[J].Food Science, 2020, 41(3):99-105.
[28] 王阳恩, 凌向虎, 尚志远, 等.超声波对表面活性剂水溶液表面张力的影响[J].中国海上油气(工程), 2001, 13(6):36-38;5.
WANG Y E, LING X H, SHANG Z Y, et al.Effect of ultrasonic on surface tension of surfactant aqueous solution[J].China Offshore Oil and Gas, 2001, 13(6):36-38;5.
[29] 李兆敏, 刘己全, 李松岩, 等.二氧化碳乳液微观稳定性实验研究[J].特种油气藏, 2015(5):82-85.
LI Z M, LIU Y Q, LI Y S, et al.Experimental research on micro-stability of CO2 emulsion[J].Special Oil Gas Reservoirs, 2015(5):82-85.
[30] 张春兰, 李斌.枸杞色素微乳液的理化稳定性[J].食品工业科技, 2019, 40(23):72-76.
ZHANG C L, LI B.Physicochemical stability of Lycium barbarum pigment-riched microemulsion[J].Science and Technology of Food Industry, 2019, 40(23):72-76.
[31] 姚倩, 颜军, 何钢, 等.pH与微乳辅料对白藜芦醇稳定性影响的研究[J].食品工业科技, 2015,36(21):98-101.
YAO Q, YAN J, HE G, et al.Effect of pH and microemulsion excipients on the stability of resveratrol[J].Science and Technology of Food Industry, 2015,36(21):98-101.
[32] 张佩华, 梅子, 傅玉颖.微乳的稳定性研究[J].食品工业科技, 2014, 35(7):73-79.
ZHANG P H, MEI Z, FU Y M.Study on the stability of microemulsion[J].Science and Technology of Food Industry, 2014, 35(7):73-79.
[33] 陈福良, 田慧琴, 王仪, 等.农药微乳剂乳液稳定性研究[J].农药学学报, 2005, 7(1):63-68.
CHEN F L, TIAN H Q, WANG Y, et al.Study on the emulsion stability of pesticide microemulsions[J].Chinese Journal of Pesticide Science, 2005, 7(1):63-68.
[34] 刘欣, 周志磊, 毛健.玫瑰精油微乳制备及性质研究[J].食品与生物技术学报, 2019, 38(5):79-85.
LIU X, ZHOU Z L, MAO J.Preparation and characterization of rose essential oil microemulsion and tested its characteristic[J].Food Science and Biotechnology, 2019, 38(5):79-85.
[35] 彭群, 段翰英, 叶之壮, 等.重组乳液粒径对甜橙油纳米微胶囊稳定性的影响.食品与发酵工业, 2012, 46(16):56-61.
PENG Q, DUAN H Y, YE Z Z, et al.Effect of reconstituted emulsion size on the stability of encapsulated sweet orange oil[J].Food and Fermentation Industries, 2012, 46(16):56-61.
[36] WANG X, XUE M, GU J J, et al.Transdermal microemulsion drug delivery system for impairing male reproductive toxicity and enhancing efficacy of Tripterygium Wilfordii Hook f[J].Fitoterapia, 2012, 83(4):690-698.
[37] LEE, M H,SHIN, G H,PARK H J, et al.Solid lipid nanoparticles loaded thermoresponsive pluronic-xanthan gum hydrogel as a transdermal delivery system[J].Journal of Applied Polymer Science, 2017, 135(11).
[38] 张海红, 刘素兰, 杨慧, 等.微乳作为经皮给药载体的研究与应用现状[J].科技风, 2019(35):233-234.
ZHANG H H, LIU S L, YANG H, et al.Research and application of microemulsion as carrier of percutaneous therapy[J].Ke Ji Feng, 2019(35):233-234.
[39] 倪媛媛, 林瑞超.微乳技术在中药分析中的应用[C].北京:第六届全国药物分析大会论文集.全国药物分析大会理事会, 2016:1-9.
NI Y Y, LIN R C.Application of microemulsion technology in analysis of traditional Chinese medicine[C].Beijing:Proceedings of the 6th National Congress of pharmaceutical analysis.National Drug Analysis Congress Council, 2016:1-9.
[40] 王建磊. 微乳液、囊泡体系的制备及其在胰岛素制剂中的应用[D].无锡:江南大学, 2007.
WANG J L.Preparation of microemulsion and vesicle system and its application in insulin preparation[D].Wuxi:Jiangnan University, 2007.
[41] 闫圣坤, 杨嘉鹏, 王庆惠.微乳液的制备及其在食品行业中的应用[J].农业工程, 2019, 9(1):52-55.
YAN S K, YANG J P, WANG Q H.Microemulsion preparation and its application in food industry[J].Agricultural Engineering, 2019, 9(1):52-55.
[42] 赵嘉敏, 陈中, 林伟锋.吐温-80制备食品级微乳的稳定性评价[J].食品与发酵工业, 2011, 37(3):75-78.
ZHAO J M, CHEN Z, LIN W F.Stability evaluation of food-grade microemulsions with tween-80[J].Food and Fermentation Industries, 2011, 37(3):75-78.
[43] ALRUWAILI N W, ABULMEATY M M A, ALMAJWAL A M, et al.Novel vitamin D-Nanoemulsion improves testicular function of vitamin D deficient rats[C].Conference of FASEB Journal, Colorado, USA, 2017:11-16.
[44] 颜秀花, 王正武, 王建磊, 等.β-胡萝卜素微乳液的制备及其稳定性研究[J].化学通报(印刷版), 2007, 70(1):67-72.
YAN X H, WANG Z W, WANG J L, et al.Preparation and stabilization of β-carotene microemulsion[J].Chemistry, 2007, 70(1):67-72.
[45] 郝长虹. 辣椒红色素乳液的制备及其性能研究[D].天津:天津科技大学, 2016.
HAO C H.Preparation and properties of capsicum red pigment emulsion[J].Tianjin:Tianjin University of science and technology, 2016
[46] 康明丽, 谷进军, 郭小磊, 等.不同精油-羧甲基纤维素钠复合涂膜对草莓贮藏品质的影响[J].保鲜与加工, 2017, 17(4):10-14.
TANG M L, GU J J, GUO X L, et al.Effect of essential oil-sodium carboxymethyl cellulose composite coating material on preservation of strawberry[J].Storage and Process, 2017, 17(4):10-14.
[47] 谢晶, 马美湖, 高进.植物精油抗菌乳状液涂膜对鸡蛋的保鲜效果[J].农业工程学报, 2009, 25(8):299-304.
XIE J, MA M H, GAO J.Preservation effect of eggs by coating with plant antibacterial oil emulsion[J].Transactions of the Chinese Society of Agricultural Engineering, 2009, 25(8):299-304.
[48] 陈梦洁, 王道源, 李志勇, 等.基于食用油为连续相的茶多酚反相微乳液的制备[J].食品科学, 2018, 39(6):39-44.
CHEN M J, WANG D Y, LI Z Y, et al.Preparation of tea polyphenols-loaded inverse microemulsion using edible oil as continuous phase[J].Food Science, 2018, 39(6):39-44.
[49] 刘彩云, 王卓娅, 罗欣茹, 等.根皮素抗氧化剂自微乳及微乳凝胶剂的研究[J].香料香精化妆品, 2017(3):49-53.
LIU C Y, WANG Z Y, LUO X R, et al.Study on self-microemulsion and microemulsion gel of antioxidant of phloretin[J].Flavor Fragrance Cosmetics, 2017(3):49-53.
[50] LUCAS, AUM G, DANTAS D C,et al.Experimental study of microemulsion systems applied on formation damage remediation[J].Energy Sources, Part A:Recovery, Utilization, and Environmental Effects, 2020, 42(7):807-814.
