天然香料纳微胶囊中间体

doi:10.7536/PC170924

作为一种中间体，天然香料纳微胶囊具有可控释放、保护活性成分的优势，已经被广泛应用于食品、日化和纺织等很多领域。然而，天然香料纳微胶囊的结构与性能的不可控限制了其在高技术领域的进一步应用。天然香料纳微胶囊属于结构化产品，性能不仅取决于比例和组成，微观与介观结构也起着重要的作用。本课题组在化学产品工程理念的指导下，以产品需求为导向，从分子水平研究芯材与壁材分子间的相互作用，建立天然香料纳微胶囊结构与性能的关系，通过多壁材复合技术、微流控技术与过程控制技术实现化学品的精确定制。本文综述了天然香料纳微胶囊在不同领域中的应用进展，重点探讨用化学产品工程理念来设计、制备天然香料纳微胶囊，并对该领域所面临的挑战和未来的研究方向进行了展望。

关键词： 天然香料, 纳微胶囊, 化学产品工程, 中间体

As an intermediate, natural flavor nano-microcapsule has been applied in many fields including food, cosmetic and textile because of controlled release and protecting active ingredient. Functionalizing nano-microcapsule with uniform size and controllable structure has received more and more attention. However, structures and properties of nano-microcapsule are always uncontrollable, which limits its further applications in high-tech areas. Natural flavor nano-microcapsule is structured products, its performance not only depends on proportion and composition, but microstructure and mesoscopic structures also play an important role in products. Under the guidance of the concept of chemical product engineering, in order to meet customers and market demand, our group focus on investigating the interaction between core material and wall material on the molecular scale, building the relationship between structure and properties of natural flavor nano-microcapsule, and precisely producing chemicals using multi-wall materials, micro-fluidic and process analysis technology. In this paper, application progresses of natural flavor nano-microcapsule in different areas have been reviewed. Furthermore, natural flavor nano-microcapsule designed and prepared using the chemical product engineering method are focused on. Finally, challenges in research and the perspective on the future directions of these disciplines are briefly discussed.
Contents
1 Introduction
2 Development of natural flavor nano-microcapsule under the concept of chemical product engineering
2.1 Application of natural flavor nano-microcapsule
2.2 Design of natural flavor nano-microcapsule
2.3 Preparation of natural flavor nano-microcapsule
3 Research strategy of natural flavor nano-microcapsule product
4 Conclusion

Key words: natural flavor, nano-microcapsule, chemical product engineering, intermediate

中图分类号:

分享此文:

[1] 刘铮(Liu Z), 金涌(Jin Y), 魏飞(Wei F), 李有润(Li Y R), 骆广生(Luo G S), 袁乃驹(Yuan N J). 化工进展(Chemical Industry and Engineering Progress), 2002, 21:87.
[2] Wei J. Ind. Eng. Chem. Res., 2002, 41:1917.
[3] Cussler E L, Wei J. AIChE J., 2003, 49:1072.
[4] 钱宇(Qian Y), 潘吉铮(Pan J Z), 江燕斌(Jiang Y B), 章莉娟(Zhang L J), 纪红兵(Ji H B). 化工进展(Chemical Industry and Engineering Progress), 2003, 22:217.
[5] 孙宏伟(Sun H W). 化工进展(Chemical Industry and Engineering Progress), 2003, 22:224.
[6] 袁渭康(Yuan W K). 化工进展(Chemical Industry and Engineering Progress), 2004, 23:9.
[7] Wei M, Zhang X, Evans D G, Duan X, Li X, Chen H. AIChE J., 2007, 53:2916.
[8] Zou K, Zhang H, Duan X. Chem. Eng. Sci., 2007, 62:2022.
[9] Han J, Dou Y, Wei M, Evans D G, Duan X. Angew. Chem. Int. Ed., 2010, 49:2171.
[10] He J, Liu Z, Hai C. AlChE J., 2008, 54:2495.
[11] Lei X, Zhang F, Yang L, Guo X, Tian Y, Fu S, Li F, Evans D G, Duan X. AIChE J., 2010, 53:932.
[12] Liu X, Wei M, Li F, Duan X. AIChE J., 2010, 53:1591.
[13] Wei W, Wang L Y, Yuan L, Wei Q, Yang X D, Su Z G,Ma G H. Adv. Funct. Mater., 2007, 17:3153.
[14] Wei W, Ma G H, Hu G, Yu D, McLeish T, Su Z G, Shen Z Y. J. Am. Chem. Soc., 2008, 130:15808.
[15] Gao F, Su Z G, Wang P, Ma G H. Langmuir, 2009, 25:3832.
[16] Wei W, Yuan L, Hu G, Wang L Y, Wu J, Hu X, Su Z G, Ma G H. Adv. Mater., 2010, 20:2292.
[17] Peng X, Wu T, Fan J, Wang J, Zhang S, Song F, Sun S. Angew. Chem. Int. Ed., 2011, 50:4180.
[18] Peng X, Yang Z, Wang J, Fan J, He Y, Song F, Wang B, Sun S, Qu J, Qi J. J. Am. Chem. Soc., 2011, 133:6626.
[19] Fan J, Dong H, Hu M, Wang J, Zhang H, Zhu H, Sun W, Peng X. Chem. Commun., 2014, 50:882.
[20] Hao Z, Fan J, Du J, Peng X. Acc. Chem. Res., 2016, 49:2115.
[21] Sun X, Luo Y, Wang R, Li B G, Zhu S. AIChE J., 2008, 54:1073.
[22] Luo Y, Guo Y, Gao X, Li B G, Xie T. Adv. Mater., 2013, 25:743.
[23] Huang J, Zhao S, Gao X, Luo Y, Li B. Ind. Eng. Chem. Res., 2014, 53:7688.
[24] Ma C, Li T, Zhao Q, Yang X, Wu J, Luo Y, Xie T. Adv. Mater., 2014, 26:5665.
[25] Augustin M A, Hemar Y. Chem. Soc. Rev., 2009, 38:902.
[26] Green B K, Lowells S. US 291960, 1953.
[27] Green B K, Sandberg R W. US 2548366, 1948.
[28] Green B K. US 2505489, 1950.
[29] Marty J J, Oppenheim R C, Speiser P. Pharm. Acta Helv. 1978, 53:17.
[30] Ghosh S K. Function Coating and Microencapsulation:A General Perspective. 1st ed. Weinheim:WILEY-VCH Verlag GmbH and CO KGaA, 2006.
[31] Kim M S, Kim J S, You Y H, Park H J, Lee S, Park J S, Woo J S, Hwang S J. Int. J. Pharm., 2007, 341:97.
[32] Casanova F, Santos L. J. Microencapsulation, 2016, 33:1.
[33] 梁治齐(Liang Z Q). 微胶囊技术及其应用(Microencapsulation Technology and Application). 北京:中国轻工业出版社(Beijing:China Light Industry Press), 1999. 390.
[34] Madene A, Jacquot M, Scher J, Desobry S. Int. J. Food Sci. Technol., 2006, 41:1.
[35] Wang W, Zhang M J, Xie R, Ju X J, Yang C, Mou C L, Weitz D A, Chu L Y. Angew. Chem. Int. Ed., 2013, 52:8084.
[36] Wei J, Ju X J, Zou X Y, Xie R, Wang W, Liu Y M, Chu L Y. Adv. Funct. Mater., 2014, 24:3312.
[37] Gray A, Egan S, Bakalis S, Zhang Z. Particuology, 2016, 24:32.
[38] Yang X L, Ju X J, Mu X T, Wang W, Xie R, Liu Z, Chu L Y. ACS Appl. Mater. Interfaces, 2016, 8:10524.
[39] 李静海(Li J H), 胡英(Hu Y), 袁权(Yuan Q), 何鸣元(He M Y). 展望21世纪的化学工程(Looking Forward to Chemical Engineering in 21st Century). 北京:化学工业出版社(Beijing:Chemical Industry Press), 2004.
[40] O'Brien K, Boeneke C, Aryana K, Rouse M. Milchwissenschaft, 2012, 67:267.
[41] Ye A, Cui J, Taneja A, Zhu X, Singh H. Food Res. Int., 2009, 42:1093.
[42] Bermúdez Aguirre D, Barbosa Cánovas G V. LWT-Food Sci. Technol., 2011, 44:1577.
[43] Stratulat I, Britten M, Salmieri S, Fustier P, St Gelais D, Champagne C P, Lacroix M. J. Funct. Foods, 2014, 6:48.
[44] Tamjidi F, Nasirpour A, Shahedi M. Revista de Agaroquimica y Tecnologia de Alimentos, 2012, 18:381.
[45] Josquin N M, Linssen J P H, Houben J H. Meat Sci., 2012, 90:81.
[46] Wan Y, Bechtel P J, Sathivel S. LWT-Food Sci. Technol., 2011, 44:576.
[47] Wang R, Tian Z, Chen L. Food Res. Int., 2011, 44:2735.
[48] Rubilar M, Morales E, Contreras K, Ceballos C, Acevedo F, Villarroel M, Shene C. Eur. J. Lipid Sci. Technol., 2012, 114:423.
[49] Umesha S S, Manohar R S, Indiramma A R, Akshitha S, Naidu K A. LWT-Food Sci. Technol., 2015, 62:654.
[50] Wagne N. Size of the Natural Products Industry.[2017-08-15]. http://smallbusiness.chron.com/size-natural-products-industry-71266.html.
[51] Xi T. Organic Products, Industry and Culture.[2017-08-15]. http://smallbusiness.chron.com/organic-products-industry-culture-70293.html.
[52] Yeomans M. Global Organic Cosmetics Market to Reach $13.2 Billion by 2018.
[2013] . CosmeticsDesign.com.
[53] Pitman S. Organic Personal Care Market Likely to Post Double-Digit Annual Growth to 2020.
[2014] . CosmeticsDesign.com.
[54] Regulation (EC) NO1223/2009 of the European Parliament and of the Council on Cosmetic Products. Official Journal of the European Union:2009.
[55] Rieger M M. Cosmetics. Kirk-Othmer Encyclopedia of Chemical Technology, Hoboken:Wiley Blackwell, 2000.
[56] Voncina B, Kreft O, Kokol V, Chen W T. Taiwan Text. Res. J., 2009, 19:10.
[57] Boh B. Indian J. Fibre Text. Res., 2006, 31:72.
[58] Sutaphanit P, Chitprasert P. Food Chem., 2014, 150:313.
[59] Cota Arriola O, Onofre Cortez Rocha M, Burgos Hernández A, Marina Ezquerra Brauer J, Plascencia Jatomea M. J. Sci. Food Agric., 2013, 93:1525.
[60] Carvalho I T, Estevinho B N, Santos L. Int. J. Cosmetic Sci., 2016, 38:109.
[61] Barel A, Paye M, Maibach H. Handbook of Cosmetic Science and Technology. New York:Marcel Dekker, 2001.
[62] Suraweera R K, Pasansi H G P, Herath H M D R, Wickramaratne D B M, Sudeshika S H T, Niyangoda D, Sakeena M H F. Int. J. Pharm. Pharm. Sci., 2014, 6:249.
[63] Kanakdande D, Bhosale R, Singhal R S. Carbohydr. Polym., 2007, 67:536.
[64] Singh M N, Hemant K S Y, Ram M, Shivakumar H G. Res. Pharm. Sci., 2010, 5:65.
[65] Shahidi F, Han X Q. Crit. Rev. Food Sci., 1993, 33:501.
[66] Jun X X, Hai Y Y, Jian Y. Food Chem., 2011, 125:1267.
[67] Yang J, Xiao J X, Ding L Z. Eur. Food Res. Technol., 2009, 229:467.
[68] Aniesrani Delfiya D S, Thangavel K, Natarajan N, Kasthuri R, Kailappan R. J. Food Process Eng., 2015, 38:37.
[69] Toledo Hijo A A C, Da Costa J M G, Silva E K, Azevedo V M, Yoshida M I, Borges S V. J. Food Process Eng., 2015, 38:1.
[70] Krishnan S, Bhosale R, Singhal R S. Carbohydr. Polym. 2005, 61:95.
[71] Lam P L, Gambari R. J. Controlled Release, 2014, 178:25.
[72] Fuchs M, Turchiuli C, Bohin M, Cuvelier M E, Ordonnaud C, PeyratMaillard M N, Dumoulin E. J. Food Eng., 2006, 75:27.
[73] Patravale V B, Mandawgade S D. Int. J. Cosmetic Sci., 2008, 30:19.
[74] Umer H, Nigam H, Tamboli A, Nainar M. Int. J. Res. Pharm. Biomed. Sci., 2011, 2:474.
[75] Muyima N Y O, Zulu G, Bhengu T, Popplewell D. Flavour Frag. J., 2002, 17:258.
[76] 宋健(Song J). 微胶囊化技术及应用(Microcapsule Technology and Application). 北京:化学工业出版社(Beijing:Chemical Industry Press), 2001.
[77] 许时婴(Xu S Y), 张晓鸣(Zhang X M), 夏书芹(Xia S Q),张文斌(Zhang W B). 微胶囊技术-原理与应用(Microcapsule Technology-Principle and Application). 北京:化学工业出版社(Beijing:Chemical Industry Press), 2006.
[78] Nelson G. Int. J. Pharm., 2002, 242:55.
[79] Bonet Aracil M Á, Monllor P, Capablanca L, Gisbert J, Díaz P, Montava I. Cellulose, 2015, 22:2117.
[80] Martins I M, Rodrigues S N, Barreiro M F, Rodrigues A E. Ind. Eng. Chem. Res., 2011, 50:13752.
[81] Teixeira C S N R, Martins I M D, Mata V L G, Filipe Barreiro M F, Rodrigues A E. J. Text. Inst., 2012, 103:269.
[82] Rodrigues S N, Martins I M, Fernandes I P, Gomes P B, Mata V G, Barreiro M F, Rodrigues A E. Chem. Eng. J., 2009, 149:463.
[83] Rodrigues S N, Fernandes I, Martins I M, Mata V G, Barreiro F, Rodrigues A E. Ind. Eng. Chem. Res., 2008, 47:4142.
[84] Sansukcharearnpon A, Wanichwecharungruang S, Leepipatpaiboon N, Kerdcharoen T, Arayachukeat S. Int. J. Pharm., 2010, 391:267.
[85] Lee A R,Yi E. Fibers Polym., 2013, 14:1295.
[86] Frey D D, Engelhardt F, Greitzer E M. Res. Eng. Des., 2003, 14:65.
[87] Kharia A A, Singhai A K. ISRN Nanomaterials, 2013, 2013.
[88] Bower K M. Design of Experiments (DOE).[2017-08-13]. http://asq.org/learn-about-quality/data-collection-analysis-tools/overview/design-of-experiments.html.
[89] Christolear D. Design of Experiments (DOE) Tutorial.[2017-08-13].http://asq.org/learn-about-quality/data-collection-analysis-tools/overview/design-of-experiments-tutorial.html.
[90] Bas D, Boyaci I H. J. Food Eng., 2007, 78:836.
[91] Paulo F, Santos L. Mater. Sci. Eng. C, Mater. Biol. Appl., 2017, 77:1327.
[92] Xing F, Cheng G, Yang B, Ma L. J. Appl. Polym. Sci., 2004, 91:2669.
[93] Xing F, Cheng G, Yi K, Ma L. J. Appl. Polym. Sci., 2005, 96:2225.
[94] Lemetter C Y G, Meeuse F M, Zuidam N J. AIChE J., 2009, 55:1487.
[95] Dong Z, Ma Y, Hayat K, Jia C, Xia S, Zhang X. J. Food Eng., 2011, 104:455.
[96] Yang Z, Peng Z, Li J, Li S, Kong L, Li P,Wang Q. Food Chem., 2014, 145:272.
[97] 梁振鹏(Liang Z P), 王朝阳(Wang Z Y), 孙启龙(Sun Q L), 童真(Tong Z). 化学进展(Progress in Chemistry), 2004, 16:485.
[98] 王奎涛(Wang K T), 葛艳蕊(Ge Y R), 冯薇(Feng W),袁中凯(Yuan Z K). 日用化学工业(Riyong Huaxue Gongye), 2005, 35:368.
[99] 何瑾馨(He J X),邹黎明(Zou L M). 东华大学学报(自然科学版)(Journalof Donghua University, Natural Sciences),1999,25(1):1.
[100] 邹黎明(Zou L M), 杨定超(Yang D C), 王菊生(Wang J S). 东华大学学报(自然科学版)(Journalof Donghua University, Natural Sciences),1995, 21(2):22.
[101] Kim Y D, Morr C V. J. Agric. Food Chem., 1996, 44:1314.
[102] Baranauskiene R, Bylaite E, Zukauskaite J, Venskutonis R P. J. Agric. Food Chem., 2007, 55:3027.
[103] Edris A E, Kalemba D, Adamiec J, PiAtkowski M. Food Chem., 2016, 204:326.
[104] Sultana A, Miyamoto A, Lan Hy Q, Tanaka Y, Fushimi Y, Yoshii H. J. Food Eng., 2017, 199:36.
[105] Watson M A, Lea J M, Bett Garber K L. Food Sci. Nutr., 2017, 5:820.
[106] Zhang S, Chen J, Yin X, Wang X, Qiu B, Zhu L, Lin Q. J. Appl. Polym. Sci., 2017, 134:44662.
[107] Chang C, Varankovich N, Nickerson M T. Food Chem., 2016, 212:264.
[108] Timilsena Y P, Vongsvivut J, Adhikari R, Adhikari B. Food Chem., 2017, 228:394.
[109] Gharsallaoui A, Roudaut G, Beney L, Chambin O, Voilley A, Saurel R. Food Chem., 2012, 132:1713.
[110] Timilsena Y P, Adhikari R, Barrow C J, Adhikari B. Food Hydrocolloids, 2017, 66:71.
[111] Augustin M A, Sanguansri L, Rusli J K, Shen Z, Cheng L J, Keogh J, Clifton P. Food Funct., 2014, 5:2905.
[112] Estevinho B M A N, Rocha F A N, Da Silveira Santos L M, Alves M A C. J. Microencapsulation, 2013, 30:571.
[113] Rocha G A, Fávaro-Trindade C S, Grosso C R F. Food & Bioproducts Processing, 2012, 90:37.
[114] Yang Z, Zeng Z, Xiao Z, Ji H. Flavour Fragrance J., 2014, 29:114.
[115] Partanen R, Ahro M, Hakala M, Kallio H, Forssell P. Eur. Food Res. Technol., 2002, 214:242.
[116] Hill L E, Gomes C, Taylor T M. LWT-Food Sci. Technol., 2013, 51:86.
[117] Gao K, Liu X, Hao X, Liu X. Appl. Mech. Mater., 2014, 651/653:269.
[118] Tao F, Hill L E, Peng Y, Gomes C L. LWT-Food Sci. Technol., 2014, 59:247.
[119] Zhu G, Xiao Z, Zhou R, Zhu Y. Carbohydr. Polym., 2014, 105:75.
[120] Wang J, Cao Y, Sun B, Wang C. Food Chem., 2011, 127:1680.
[121] 袁超(Yuan C), 金征宇(Jin Z Y), 徐学明(Xu X M). 食品工业科技(Science and Technology of Food Industry), 2011, 32:103.
[122] Aziz S, Gill J, Dutilleul P, Neufeld R, Kermasha S. J. Microencapsulation, 2014, 31:774.
[123] Chen M, Hu Y, Zhou J, Xie Y, Wu H, Yuan T,Yang Z. RSC Adv., 2016, 6:13032.
[124] Girardi N S, Garcia D, Robledo S N, Passone M A, Nesci A, Etcheverry M. Ind. Crops Prod., 2016, 92:93.
[125] Huang Y I, Cheng Y H, Yu C C, Tsai T R, Cham T M. Colloids Surf. B. Biointerfaces, 2007, 58:290.
[126] Liu W, Xiao Z, Zhu G, Zhou R, Wang E, Niu Y. Appl. Mech. Mater., 2014, 477/478:1229.
[127] Sharkawy A, Fernandes I P, Barreiro M F, Rodrigues A E, Shoeib T. Ind. Eng. Chem. Res., 2017, 56:5516.
[128] Ichiura H, Takayama M, Nishida N, Otani Y. J. Appl. Polym. Sci., 2012, 124:242.
[129] 辜海彬(Gu H B), 王治远(Wang Z Y), 李洋鑫(Li Y X), 王向华(Wang X H), 陈武勇(Chen W Y). 中国皮革(Chinese Leather), 2011, 40:26.
[130] 张美艳(Zhang M Y), 王炜(Wang W), 钟毅(Zhong Y). 印染助剂(Textile Auxiliaries), 2011, 28:31.
[131] 孙丽丽(Sun L L), 盖轲(Gai K). 渤海大学学报(自然科学版)(Journalof Bohai University, Natural Sciences), 2002, 23:10.
[132] Lertsutthiwong P, Noomun K, Jongaroonngamsang N, Rojsitthisak P, Nimmannit U. Carbohydr. Polym., 2008, 74:209.
[133] Lertsutthiwong P, Rojsitthisak P, Nimmannit U. Mater. Sci. Eng. C, 2009, 29:856.
[134] Natrajan D, Srinivasan S, Sundar K, Ravindran A. J. Food Drug Anal., 2015, 23:560.
[135] Ma S, Xiao Z, Hu J, Dai S, Hui L. Food Industry (Shanghai, China), 2010, 31:37.
[136] Li Z, Shi G, Huang Y, Lin L. Fine Chemicals, 2012, 29:378.
[137] Lv Y, Yang F, Li X, Zhang X, Abbas S. Food Hydrocolloids, 2014, 35:305.
[138] Sotelo-Boyás M, Correa-Pacheco Z, Bautista-Baños S, y Gómez Y G. Int. J. Biol. Macromol., 2017, 103:409.
[139] Sotelo-Boyás M E, Correa-Pacheco Z N, Bautista-Baños S, Corona-Rangel M L. LWT-Food Sci. Technol., 2017, 77:15.
[140] Hu J, Xiao Z B, Zhou R J, Li Z, Wang M X, Ma S S. Flavour Fragrance J., 2011, 26:162.
[141] Niu Y W, Xiao Z B, Zhang R M, Ding Y, Yu D. Food Industry (Shanghai, China), 2013, 34:48.
[142] Zhang T B, Xiao Z B, Hu J, Tian T, Li T Q. Fine Chemicals, 2014, 31:347.
[143] Hu J, Deng W, Liu L, Xiao Z. J. Appl. Polym. Sci., 2014, 131:40182.
[144] Liu C, Liang B, Shi G, Li Z, Zheng X, Huang Y, Lin L. Flavour Fragrance J., 2015, 30:295.
[145] Navarro M M S, Nohales F P, Aís F A, Barceló C O. Progr. Colloid. Polym. Sci., 2012, 139:74.
[146] Ye K, Zhao D, Shi X, Lu X. RSC Adv., 2016, 6:84119.
[147] Lu C, Xiao Z, Feng T. J. Food Sci. Biotech., 2011, 30:843.
[148] Zhu G, Xiao Z, Zhou R, Feng N. J. Food Sci. Technol., 2015, 52:4607.
[149] Wolf P A, Havekotte M J. US 19870071923, 1989.
[150] Seikikawa K,Watanabe M. WIPO CH2007/000549, 2008.
[151] 彭姣凤(Peng J F), 李建成(Li J C), 李庆廷(Li Q Y). 香料香精化妆品(Flavour Fragrance Cosmetics), 2008, 2008(3):22.
[152] 何明(He M), 顾晓利(Gu X L), 罗振扬(Luo Z Y),陆小华(Lu X H), 刘畅(Liu C), 杨祝红(Yang Z H), 冯新(Feng X). 现代化工(Modern Chemical Industry), 2007, 27:14.
[153] Yang Z J, Zeng Z F, Xiao Z B, Ji H B. Flavour Frag. J., 2014, 29:114.
[154] Yang Z, Fang Y, Ji H. Chin. J. Chem. Eng., 2016, 24:421.
[155] 孙宏伟(Sun H W), 段雪(Duan X). 化学工程学科前沿与展望(Frontiers and Prospects of Chemical Engineering). 北京:科学出版社(Beijing:Science Press), 2012. 577.

[1]	徐梦婷, 王彦青, 毛亚, 李景娟, 江志东, 原鲜霞. 非水系锂空气电池催化剂[J]. 化学进展, 2021, 33(10): 1679-1692.
[2]	董玉, 李海波, 李津, 冯磊, 张志伟*. 高三尖杉酯碱和三尖杉酯碱的合成研究[J]. 化学进展, 2018, 30(12): 1827-1835.
[3]	曾新娟, 王丽, 皮丕辉, 程江, 文秀芳, 钱宇. 特殊润湿性油水分离材料的开发与研究[J]. 化学进展, 2018, 30(1): 73-86.
[4]	朱本占, 谢琳娜, 沈忱, 高慧颖, 朱丽雅, 毛莉. 卤代芳烃化学发光的结构效应、分子机制及其应用[J]. 化学进展, 2017, 29(9): 930-942.
[5]	龚劲松, 李恒, 陆震鸣, 史劲松, 许正宏. 腈水解酶在医药中间体生物催化研究中的最新进展[J]. 化学进展, 2015, 27(4): 448-458.
[6]	汪玉娟, 徐杰, 尹国川. 均相催化氧化中的活性中间体多样性[J]. 化学进展, 2012, 24(0203): 203-211.
[7]	姚成福,孙彩霞,闫少宇,吴海虹. 手性咪唑啉酮类有机催化剂催化的不对称反应^*[J]. 化学进展, 2008, 20(06): 887-898.
[8]	李臻,夏春谷. 金属卟啉催化烯烃环氧化及反应机理研究^*[J]. 化学进展, 2002, 14(05): 384-.
[9]	樊美公,于联合. 光反应中间体及高级激发态的光化学——分步双激光技术的应用研究^*[J]. 化学进展, 1996, 8(02): 129-.

阅读次数

全文

摘要

天然香料纳微胶囊中间体

关于期刊

期刊介绍

编委信息

出版道德声明

联系我们

广告合作

期刊导航

当期文章

往期目录

专辑专刊

虚拟专题

特色栏目

MiniAccounts

中国化学印记

领域导航

下载排行

阅读排行

引用排行

最新录用

作者中心

投稿须知

作者登录

下载中心

在线办公

编辑审稿

主编审稿

专家审稿

订阅

纸质期刊

E-mail Alert

Rss

反馈

期刊动态

天然香料纳微胶囊中间体

Nano-Microcapsule Intermediate of Natural Flavor