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第 8 期吴珂，等: 增稠氨基酸表面活性剂的吡咯烷酮柠檬酸盐 ·1589·

表面活性剂水溶液体系的研究涉及到氨基酸表面活 levulinic acid to pyrrolidones over Pt nanocatalysts on porous TiO 2
性剂的种类和配比、配方中的各种添加剂、体系酸 nanosheets[J]. Journal of the American Chemical Society, 2019,
141(9): 4002-4009.
碱度调节、产品性价比等复杂的系统性问题，这些 [9] SCHOUWER F, ADRIAANSEN S, CLAES L, et al. Bio-based
基础研究工作仍然具有挑战性。 N-alkyl-2-pyrrolidones by Pd-catalyzed reductive N-alkylation and
decarboxylation of glutamic acid[J]. Green Chemistry, 2017, 19(20):
3 结论 4919-4929.
[10] SUGANUMA S, OTANI A, JOKA S, et al. One-step conversion of
glutamic acid into 2-pyrrolidone on a supported Ru catalyst in a
（1）用 C8P/C12P 与柠檬酸成功构筑了一系列 hydrogen atmosphere: Remarkable effect of CO activation[J].
以非共价键结合的吡咯烷酮柠檬酸盐表面活性剂。 ChemSusChem, 2019, 12(7): 1381-1389.
[11] LOGIN R. Pyrrolidone-based surfactants[J]. Journal of the American
随着两者物质的量比的增加，CMC 逐渐减小，pc 20 Oil Chemists Society, 1995, 72 (7): 759-771.
增大，降低表面张力的效率提高。HCA-2C8P 的 γ CMC [12] ALICIA G, DIEGO G, NAVAZA J, et al. Surface tension of aqueous
为 31.06 mN/m，HCA-1C12P 的 γ CMC 为 30.49 mN/m， solutions of short N-alkyl-2-pyrrolidinones[J]. Journal of Chemical &
Engineering Data, 2008, 53(11): 2671-2674.
均是同系列的最低表面张力。“假”三聚表面活性剂 [13] ROSEN M J, ZHU Z H, GU B, et al. Relationship of structure to
HCA-3C12P 的 CMC 为 0.08 mmol/L，比共价键连接 properties of surfactants[J]. Langmuir, 1988, 4(6): 1273-1277.
–
的 12-2-12-2-12•3Br （0.16 mmol/L）低，也比酰胺 [14] LOU A J, PETHICA B, SOMASUNDARAN P, et al. Phase behavior
of N-alkyl-2-pyrrolidones in aqueous and nonaqueous systems and
键连接的 DTAD（ 0.20 mmol/L）、 DDAD（ 0.33 the effect of additives[J]. Journal of Colloid and Interface Science,
mmol/L）小。 2002, 256(1): 190-193.
[15] JIANG Z, JIA K L, LIU X, et al. Multiple responsive fluids based on
（2）HCA-nC8P/HCA-nC12P 有利于改善原料的 vesicle to wormlike micelle transitions by single-tailed pyrrolidone
水溶性和表面性能。接触角的测量结果说明，柠檬 surfactants[J]. Langmuir, 2015, 31(43): 11760-11768.
酸对碳链更长的 C12P 的水溶性影响更大。吡咯烷 [16] JIANG Z, LI X F, YANG G F, et al. pH-responsive surface activity
and solubilization with novel pyrrolidone-based gemini surfactants[J].
酮与柠檬酸物质的量比越大，对帆布的润湿力越强， Langmuir, 2012, 28(18): 7174-7181.
对石蜡表面的润湿性提高。 [17] ZHOU R (周蕊), MAO N (毛娜), DENG L (邓榴), et al. Surface
properties of surfactant mixtures containing N-octyl-pyrrolidone[J].
（3）吡咯烷酮柠檬酸盐表面活性剂能显著地提
Fine Chemicals (精细化工), 1999, 16(5): 15-17.
高氨基酸表面活性剂水溶液黏度，质量分数为 15% [18] ZHU Z H, YANG D, ROSEN M J. Some synergistic properties of
的 SLS 的黏度为 0.0088 Pa·s，随着吡咯烷酮柠檬酸 N-alkyl-2-pyrrolidones, a new class of surfactants[J]. Journal of the
American Oil Chemists Society, 1989, 66(7): 998-1001.
盐的 n 从 1 变化到 3，添加 HCA-nC8P 的溶液黏度 [19] ROSEN M J, GU B, MURPHY D, et al. Synergism in binary
逐渐从 0.0852 Pa·s 提高至 0.1327 Pa·s，随着吡咯烷 mixtures of surfactants: 9. N-alkyl-2-pyrrolidone-anionic mixtures[J].
酮柠檬酸盐碳链长度的增加，HCA-2C12P 的黏度最 Journal of Colloid and Interface Science, 1989, 129(2): 468-475.
[20] DEMBERELNYAMBA D, SHIN B, LEE H. Ionic liquids based on
大达到了 0.7078 Pa·s。 N-vinyl-γ-butyrolactam: Potential liquid electrolytes and green
solvents[J]. Chemical Communications, 2002, 38(14): 1538-1539.
参考文献： [21] ZHANG H B, ZHOU X H, DONG J F, et al. A novel family of green
ionic liquids withsurface activities[J]. Science in China Series B:
[1] YI G B (易国斌), KANG Z (康正), YU L (余林), et al. Gas phase
Chemistry, 2007, 50(2): 238-242.
amination of γ-butyrolactone over modified Y molecular sieve catalyst[J].
[22] ZHANG J X (张娇霞), ZHENG Y P (郑亚萍), LAN L (兰岚), et al.
Petrochemical Technology (石油化工), 2006, 35(8): 757-760.
Synthesis and characterization of task specific ionic liquid N-
[2] ZHOU F, ZHANG B Y, LIU H C, et al. Facile preparation of
N-alkyl-2- pyrrolidones in a continuous-flow microreactor[J]. (trjmethoxysjlyl)propyl-N-methyl-2-pyrrolidone chioride with surface
Organic Process Research & Development, 2018, 22(4): 504-511. activities[J]. Chinese Journal of Organic Chemistry (有机化学),
[3] ZHU X B (朱小兵), XIE M A (谢明安). Synthesis of N-alkyl-2- 2011, 31(7): 1076-1080.
pyrrolidone[J]. Fine Chemicals (精细化工), 1999, 16(S): 189-192. [23] NAKAGAKI M, SHIMABAYASHI S. Phase separation and surface
[4] WU C L, LUO X Y, ZHANG H Y, et al. Reductive amination/ tension of aqueous hydrochloric acid solutions of N-dodecyl-2-
cyclization of levulinic acid to pyrrolidones versus pyrrolidines by pyrrqlidone[J]. Nippon Kagaku Kaishi, 1973, 2(11): 2056-2062.
switching the catalyst from AlCl 3 to RuCl 3 under mild conditions[J]. [24] YUAN M J (袁旻嘉), DONG C (董超), SHEN P L (沈珮琳), et al.
Green Chemistry, 2017, 19(15): 3525-3529. Study on properties of self-thickening system composed of amphoteric
[5] GAO G, SUN P, LI Y Q, et al. Highly stable porous-carbon-coated Ni surfactant and amino-acid based anionic surfactant[J]. China Surfactant
catalysts for the reductive amination of levulinic acid via an Detergent & Cosmetics (日用化学工业), 2015, 45(1): 11-16.
unconventional pathway[J]. ACS Catalysis, 2017, 7(8): 4927-4935. [25] WANG S (王石), FANG Z H (方兆华), FENG X L (冯小玲), et al.
[6] TOUCHY A, SIDDIKI H, KON K, et al. Heterogeneous Pt catalysts Applied research of ternary mixed system containing amino acid
surfactants[J]. Detergent & Cosmetics (日用化学品科学), 2019,
for reductive amination of levulinic acid to pyrrolidones[J]. ACS
42(2): 17-21.
Catalysis, 2014, 4(9): 3045-3050.
[26] LIU H Q (刘红旗), WANG W Y (王文扬), SHI R Y (石荣莹).
[7] WU Y Y, ZHAO Y F, WANG H, et al. Ambient reductive synthesis of
Research on the thickening in the systems of amino acid-based
N-heterocyclic compounds over cellulose-derived carbon supported
surfactants[J]. Detergent & Cosmetics (日用化学品科学), 2017,
Pt nanocatalyst under H 2 atmosphere[J]. Green Chemistry, 2020,
40(11): 16-18.
22(12): 3820-3826.
[8] XIE C, SONG J L, WU H R, et al. Ambient reductive amination of （下转第 1620 页）

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