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·1620· 精细化工 FINE CHEMICALS 第 38 卷

[26] GUTMANN B, CANTILLO D, KAPPEC O. Continuous-flow 报), 2013, 29(5): 896-902.
technology—A tool for the safe manufacturing of active [32] OH J G, KIM H S. Synthesis of core-shell nanoparticles with a Pt
pharmaceutical ingredients[J]. Angewandte Chemie International nanoparticle core and a silica shell[J]. Current Applied Physics, 2013,
Edition, 2015, 54(23): 6688-6728. 13(1): 130-136.
[27] SCOTT C D, LABES R, DEPARDIEU M, et al. Integrated plug flow [33] KUROKHTINA A A, LARINA E V, SCHMIDT A F, et al.
synthesis and crystallisation of pyrazinamide[J]. Reaction Chemistry Mechanistic studies of the Suzuki-Miyaura reaction with aryl
& Engineering, 2018, 3(5): 631-634. bromides using Pd supported on micro- and mesoporous activated
[28] NEWMAN S G, JENSEN K F. The role of flow in green chemistry carbons[J]. Journal of Molecular Catalysis A: Chemical, 2013,
and engineering[J]. Green Chemistry, 2013, 15(6): 1456-1472. 379(1): 327-332.
[29] FAN J, BOETTCHER S W, STUCKY G D. Nanoparticle assembly [34] RAO X F, LIU C, JIN Z L, et al. Pd/C-catalyzed ligand-free and
of ordered multicomponent mesostructured metal oxides via a aerobic Suzuki reaction in water[J]. Chinese Journal of Catalysis,
versatile sol-gel process[J]. Chemistry of Materials, 2006, 18(26): 2014, 35(3): 357-361.
6391-6396. [35] LIU X H (刘旭卉), BAI X F (白雪峰). Preparation of palladium-
[30] LIU J J, ZOU S H, FAN J. A general synthesis of mesoporous metal carbon catalyst by ultrasound assisted reduction method and study on
oxides with well-dispersed metal nanoparticles via a versatile sol-gel its application in Suzuki coupling reaction[J]. Chemistry and
process[J]. Journal of Materials Chemistry A, 2013, 1(12): 4038- Adhesion (化学与粘合), 2018, 40(1): 9-11.
4047. [36] CHU W Y (初文毅), WANG M (王熳), SUN Z Z (孙志忠), et al.
[31] LI S, ZHOU H, XIAO L P, et al. Synthesis of mesoporous aluminum Pd/C-catalyzed highly efficient and green Suzuki cross-coupling
silicates and their catalytic activity in Friedel-Crafts alkylation reaction[J]. Chinese Journal of Organic Chemistry (有机化学), 2012,
reaction[J]. Chinese Journal of Inorganic Chemistry (无机化学学 32(9): 1666-1672.

（上接第 1589 页） aqueous solution[J]. Langmuir, 2010, 26(11): 7922-7927.
[31] LIU H Q (刘红芹), XU B C (徐宝财), LIU X F (刘晓芳), et al.
[27] VU T, KOENIG P, COCHRAN B M, et al. Thickening mechanisms Synthesis of novel alkyl amidopropyl trimethyl quaternary ammonium
for an amino acid-derived surfactant composition[J]. Colloids and surfactants[J]. Fine Chemicals (精细化工), 2013, 30(5): 490-493.
Surfaces A-Physicochemical and Engineering Aspects, 2020, 589(6): [32] CUI Z G (崔正刚). Fundamentals of surfactants, colloids, and
124424-124430. interface chemistry[M]. Beijing: Chemical Industry Press (化学工业
[28] ROSEN M J, KUNJAPPU J T. Surfactants and interfacial 出版社), 2013.
phenomena[M]. 4th Edition. Hoboken: John Wiley & Sons Limited, [33] DREISS C A. Wormlike micelles: Where do we stand? Recent
2012. developments, linear rheology and scattering techniques[J]. Soft
[29] IN M, BEC V, AGUERRE-CHARIOL O, et al. Quaternary ammonium Matter, 2007, 3(8): 956-970.
bromide surfactant oligomers in aqueous solution: Self-association [34] WANG K (王宽), SUN J L (孙吉龙), LI Z Y (李泽勇). Study on the
and microstructure[J]. Langmuir, 2000, 16(1): 141-148. self-thickening system of sodium lauroyl sarcosinate[J]. China
[30] WU C X, HOU Y B, DENG M L, et al. Molecular conformation- Surfactant Detergent & Cosmetics (日用化学工业), 2018, 48(12):
controlled vesicle/micelle transition of cationic trimeric surfactants in 680-683.

（上接第 1596 页） and catalytic application of hydrotalcite-like anionic clays[J]. Chemical
[17] XU C, GAO Y, LIU X, et al. Hydrotalcite reconstructed by in situ Research and Application (化学研究与应用), 2003, (4): 437-442.
rehydration as a highly active solid base catalyst and its application [22] ZHENG L P, XIA S X, HOU Z T, et al. Transesterification of glycerol
in aldol condensations[J]. RSC Advances, 2012, 3: 793-801. with dimethyl carbonate over Mg-Al hydrotalcites[J]. Chinese Journal
[18] XIE W, PENG H, CHEN L. Calcined Mg-Al hydrotalcites as solid of Catalysis, 2014, 35(3): 310-318.
base catalysts for methanolysis of soybean oil[J]. Journal of Molecular [23] DU X L (杜雪莲), SUN Y Z (孙耀祖). Influence of pH value on
Catalysis A: Chemical, 2006, 246(1/2): 24-32. crystal structure and microstructure of aluminum hydroxide[J]. Journal
[19] LI Y F, YU R D, PAN S S, et al. A novel strategy for constructing of Zhengzhou University (Engineering Science) (郑州大学学报: 工
mesoporous solid superbase catalysts: Bimetallic Al-La oxides 学版), 2011, 32(5): 38-41, 45.
supported on SBA-15 modified with KF[J]. Catalysis Science & [24] LIU D J (刘大江). Elements affecting the deposition property of
Technology, 2017, 7(3): 725-733. Mg(OH) 2[J]. Journal of Salt Science and Chemical Industry (盐科学
[20] WANG J (王军), ZHAO Y (赵妍), ZOU X (邹欣), et al. Synthesis of 与化工), 2019, 48(9): 22-24.
ethylene carbonate by transesterification over KF modified MgAl [25] FATIMAH I, RUBIYANTO D, NUGRAHA J. Preparation,
hydrotalcite catalyst[J]. Chemical Industry and Engineering Progress characterization, and modelling activity of potassium flouride
(化工进展), 2020, 39(7): 2670-2676. modified hydrotalcite for microwave assisted biodiesel conversion[J].
[21] WANG L (王岚), ZHAN Z K (詹正坤). Recent advance in synthesis Sustainable Chemistry & Pharmacy, 2018, 8: 63-70.

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