十二烷基硫酸钠对两性咪唑类离子液体表面活性剂1-磺丙基-3-十二烷基咪唑内盐界面聚集行为的影响

引用本文: 尚亚卓, 王雨琴, 董修言, 朱云峰, 刘洪来. 十二烷基硫酸钠对两性咪唑类离子液体表面活性剂1-磺丙基-3-十二烷基咪唑内盐界面聚集行为的影响[J]. 应用化学, 2016, 33(6): 641-648. doi: 10.11944/j.issn.1000-0518.2016.06.150351 shu

Citation: SHANG Yazhuo, WANG Yuqin, DONG Xiuyan, ZHU Yunfeng, LIU Honglai. Effect of Sodium Dodecyl Sulfate on Interfacial Aggregation Behavior of Zwitterionic Imidazole Surfactant 3-(1-Dodecyl-3-imidazolio)propanesulfonate[J]. Chinese Journal of Applied Chemistry, 2016, 33(6): 641-648. doi: 10.11944/j.issn.1000-0518.2016.06.150351 shu

十二烷基硫酸钠对两性咪唑类离子液体表面活性剂1-磺丙基-3-十二烷基咪唑内盐界面聚集行为的影响

1.
华东理工大学化学与分子工程学院上海 200237

通讯作者: 尚亚卓,教授;Tel/Fax:021-64252767;E-mail:shangyazhuo@ecust.edu.cn;研究方向:胶体与界面化学

基金项目:
国家自然科学基金资助项目（21476072,21173079）

摘要: 利用界面扩张流变技术，研究了两性咪唑类离子液体表面活性剂1-磺丙基-3-十二烷基咪唑内盐（C₁₂imSP）的界面聚集行为，探讨传统表面活性剂十二烷基硫酸钠（SDS）对C₁₂imSP界面聚集行为的影响机制。结果表明，少量SDS的加入可以填补界面上疏松的C₁₂imSP分子间的空位，界面上形成表面活性剂混合吸附膜，界面张力显著降低；提高SDS的浓度，其分子从体相向界面层的扩散交换占优势，界面层分子逐渐达到饱和吸附，此后体系中有混合胶束形成。体相胶束中富集的SDS分子对C₁₂imSP分子的“收纳”作用及进一步的“挽留”作用，加之C₁₂imSP分子本身相对较大的空间位阻效应导致界面上的C₁₂imSP分子一旦通过扩散作用被交换至体相，其很难再回复到表面层，即界面膜以SDS分子为主。通过调节体系中SDS的含量，可以实现对混合体系SDS/C₁₂imSP/NaCl（0.1 mol/L）界面聚集行为的调控，进而实现对界面膜性质的调控。

关键词:

English

Effect of Sodium Dodecyl Sulfate on Interfacial Aggregation Behavior of Zwitterionic Imidazole Surfactant 3-(1-Dodecyl-3-imidazolio)propanesulfonate

1.
Department of Chemistry, East China University of Science and Technology, Shanghai 200237, China

Corresponding author: 尚亚卓,教授;Tel/Fax:021-64252767;E-mail:shangyazhuo@ecust.edu.cn;研究方向:胶体与界面化学

Received Date: 29 September 2015
Fund Project:
国家自然科学基金资助项目（21476072,21173079）

Abstract: The interfacial dilational rheological method was used to study the interfacial aggregation behavior of zwitterionic imidazole surfactant 3-(1-dodecyl-3-imidazolio)propanesulfonate(C₁₂imSP) solutions. The effect and mechanism of traditional surfactant sodium dodecyl sulfate(SDS) on the aggregation behavior of C₁₂imSP at air/water interface were explored. The results have shown that the SDS molecules tend to fill the vacancy among C₁₂imSP molecules when the C₁₂imSP molecules arrange loosely at interface, and mixed-adsorption films formed by SDS and C₁₂imSP spread on the air/water interface, correspondingly, the interfacial tension decrease dramatically. With the increase of SDS concentration, the diffusion exchange of molecules from bulk phase to interface is predominant and the interfacial layer reaches saturation adsorption gradually. Thereafter, the mixed micelles appear in the system. The "acceptance" and the further "detainment" of the rich SDS molecules in micelles to C₁₂imSP molecules as well as the larger steric hindrance of C₁₂imSP themselves lead to the C₁₂imSP molecules are very difficult to revert to the interface once they are exchanged into bulk phase. Namely, SDS almost entirely occupy the air/water interface. Obviously, the interfacial aggregation behavior of SDS/C₁₂imSP/NaCl(0.1 mol/L) system can be adjusted by tailor the system composition and thus realize the regulation to the properties of interfacial film.

Key words:

1. [1] Rosen M J,Kunjappu J T.Surfactants and Interfacial Phenomena[M].John Wiley&Sons,2012:1-10.[1] Rosen M J,Kunjappu J T.Surfactants and Interfacial Phenomena[M].John Wiley&Sons,2012:1-10.
2. [2] He Q,Zhang Y,Lu G,et al.Dynamic Adsorption and Characterization of Phospholipid and Mixed Phospholipid/Protein Layers at Liquid/Liquid Interfaces[J].Adv Colloid Interface Sci,2008,140(2):67-76.[2] He Q,Zhang Y,Lu G,et al.Dynamic Adsorption and Characterization of Phospholipid and Mixed Phospholipid/Protein Layers at Liquid/Liquid Interfaces[J].Adv Colloid Interface Sci,2008,140(2):67-76.
3. [3] Richardson R M,Pelton R,Cosgrove T,et al.A Neutron Reflectivity Study of Poly (N-isopropylacrylamide) at the Air-water Interface with and without Sodium Dodecyl Sulfate[J].Macromolecules,2000,33(17):6269-6274.[3] Richardson R M,Pelton R,Cosgrove T,et al.A Neutron Reflectivity Study of Poly (N-isopropylacrylamide) at the Air-water Interface with and without Sodium Dodecyl Sulfate[J].Macromolecules,2000,33(17):6269-6274.
4. [4] Noskov B A,Alexandrov D A,Miller R.Dynamic Surface Elasticity of Micellar and Nonmicellar Solutions of Dodecyldimethyl Phosphine Oxide.Longitudinal Wave Study[J].J Colloid Interface Sci,1999,219(2):250-259.[4] Noskov B A,Alexandrov D A,Miller R.Dynamic Surface Elasticity of Micellar and Nonmicellar Solutions of Dodecyldimethyl Phosphine Oxide.Longitudinal Wave Study[J].J Colloid Interface Sci,1999,219(2):250-259.
5. [5] Stubenrauch C,Miller R.Stability of Foam Films and Surface Rheology:An Oscillating Bubble Study at Low Frequencies[J].J Phys Chem B,2004,108(20):6412-6421.[5] Stubenrauch C,Miller R.Stability of Foam Films and Surface Rheology:An Oscillating Bubble Study at Low Frequencies[J].J Phys Chem B,2004,108(20):6412-6421.
6. [6] Huang C,Li C,Shi G.Graphene Based Catalysts[J].Energ Environ Sci,2012,5(10):8848-8868.[6] Huang C,Li C,Shi G.Graphene Based Catalysts[J].Energ Environ Sci,2012,5(10):8848-8868.
7. [7] Zhu Y,Xu G,Xin X,et al.Surface Tension and Dilational Viscoelasticity of Water in the Presence of Surfactants Tyloxapol and Triton X-100 with Cetyl Trimethylammonium Bromide at 25℃[J].J Chem Eng Data,2009,54(3):989-995.[7] Zhu Y,Xu G,Xin X,et al.Surface Tension and Dilational Viscoelasticity of Water in the Presence of Surfactants Tyloxapol and Triton X-100 with Cetyl Trimethylammonium Bromide at 25℃[J].J Chem Eng Data,2009,54(3):989-995.
8. [8] Li Y M,Xu G Y,Xin X,et al.Dilational Surface Viscoelasticity of Hydroxypropyl Methyl Cellulose and C_nTAB at Air-water Surface[J].Carbohydr Polym,2008,72(2):211-221.[8] Li Y M,Xu G Y,Xin X,et al.Dilational Surface Viscoelasticity of Hydroxypropyl Methyl Cellulose and C_nTAB at Air-water Surface[J].Carbohydr Polym,2008,72(2):211-221.
9. [9] Fainerman V B,Lotfi M,Javadi A,et al.Adsorption of Proteins at the Solution/Air Interface Influenced by Added Nonionic Surfactants at very Low Concentrations for Both Components.2.Effect of Different Surfactants and Theoretical Model[J].Langmuir,2014,30(43):12812-12818.[9] Fainerman V B,Lotfi M,Javadi A,et al.Adsorption of Proteins at the Solution/Air Interface Influenced by Added Nonionic Surfactants at very Low Concentrations for Both Components.2.Effect of Different Surfactants and Theoretical Model[J].Langmuir,2014,30(43):12812-12818.
10. [10] Zhang L,Wang X C,Yan F,et al.Interfacial Dilational Properties of Partly Hydrolyzed Polyacrylamide and Gemini Surfactant at the Decane-water Interface[J].Colloid Polym Sci,2008,286(11):1291-1297.[10] Zhang L,Wang X C,Yan F,et al.Interfacial Dilational Properties of Partly Hydrolyzed Polyacrylamide and Gemini Surfactant at the Decane-water Interface[J].Colloid Polym Sci,2008,286(11):1291-1297.
11. [11] Blomqvist B R,W rnheim T,Claesson P M.Surface Rheology of PEO-PPO-PEO Triblock Copolymers at the Air-water Interface:Comparison of Spread and Adsorbed Layers[J].Langmuir,2005,21(14):6373-6384.[11] Blomqvist B R,W rnheim T,Claesson P M.Surface Rheology of PEO-PPO-PEO Triblock Copolymers at the Air-water Interface:Comparison of Spread and Adsorbed Layers[J].Langmuir,2005,21(14):6373-6384.
12. [12] Monteux C,Mangeret R,Laibe G,et al.Shear Surface Rheology of Poly (N-isopropylacrylamide) Adsorbed Layers at the Air-water Interface[J].Macromolecules,2006,39(9):3408-3414.[12] Monteux C,Mangeret R,Laibe G,et al.Shear Surface Rheology of Poly (N-isopropylacrylamide) Adsorbed Layers at the Air-water Interface[J].Macromolecules,2006,39(9):3408-3414.
13. [13] Romoscanu A I,Mezzenga R.Cross Linking and Rheological Characterization of Adsorbed Protein Layers at the Oil-water Interface[J].Langmuir,2005,21(21):9689-9697.[13] Romoscanu A I,Mezzenga R.Cross Linking and Rheological Characterization of Adsorbed Protein Layers at the Oil-water Interface[J].Langmuir,2005,21(21):9689-9697.
14. [14] Wang D X,Luo L,Zhang L,et al.The Fast Relaxation Process between Hydrophobically Modified Associating Polyacrylamide and Different Surfactants at the Water-octane Interface[J].J Dispersion Sci Technol,2007,28(5):725-736.[14] Wang D X,Luo L,Zhang L,et al.The Fast Relaxation Process between Hydrophobically Modified Associating Polyacrylamide and Different Surfactants at the Water-octane Interface[J].J Dispersion Sci Technol,2007,28(5):725-736.
15. [15] El-Sadek R I,Roushdy M,Magda J J.Low-frequency Dilational Elasticity of the Nematic 4'-Pentyl-4-biphenylcarbonitrile (5CB)/Water Interface[J].Langmuir,2007,23(15):7907-7910.[15] El-Sadek R I,Roushdy M,Magda J J.Low-frequency Dilational Elasticity of the Nematic 4'-Pentyl-4-biphenylcarbonitrile (5CB)/Water Interface[J].Langmuir,2007,23(15):7907-7910.
16. [16] Reichert M D,Walker L M.Interfacial Tension Dynamics,Interfacial Mechanics,and Response to Rapid Dilution of Bulk Surfactant of a Model Oil-water-dispersant System[J].Langmuir,2013,29(6):1857-1862.[16] Reichert M D,Walker L M.Interfacial Tension Dynamics,Interfacial Mechanics,and Response to Rapid Dilution of Bulk Surfactant of a Model Oil-water-dispersant System[J].Langmuir,2013,29(6):1857-1862.
17. [17] Takajo Y,Yamanaka M,Rubio R G,et al.Synergistic Interaction of Short-Chain Phospholipids in the Adsorbed Film and Micelles:Study by Surface Tension and Dilational Viscoelasticity Measurements[J].J Phys Chem C,2013,117:1097-1104.[17] Takajo Y,Yamanaka M,Rubio R G,et al.Synergistic Interaction of Short-Chain Phospholipids in the Adsorbed Film and Micelles:Study by Surface Tension and Dilational Viscoelasticity Measurements[J].J Phys Chem C,2013,117:1097-1104.
18. [18] Song X W,Zhang L,Wang X C,et al.Study on Foaming Properties of Polyoxyethylene Alkyl Ether Carboxylic Salts with Different Structures[J].J Dispersion Sci Technol,2011,32(2):247-253.[18] Song X W,Zhang L,Wang X C,et al.Study on Foaming Properties of Polyoxyethylene Alkyl Ether Carboxylic Salts with Different Structures[J].J Dispersion Sci Technol,2011,32(2):247-253.
19. [19] Fang H B,Zong H,Mao L T,et al.Effect of Molecular Weight on the Interfacial Dilational Viscoelasticity of Anionic Polyelectrolyte/Surfactant Systems[J].J Dispersion Sci Technol,2010,31(12):1652-1657.[19] Fang H B,Zong H,Mao L T,et al.Effect of Molecular Weight on the Interfacial Dilational Viscoelasticity of Anionic Polyelectrolyte/Surfactant Systems[J].J Dispersion Sci Technol,2010,31(12):1652-1657.
20. [20] Ma B D,Zhang L,Gao B Y,et al.Interfacial Dilational Rheological Property and Lamella Stability of Branched Alkyl Benzene Sulfonates Solutions[J].Colloid Polym Sci,2011,289(8):911-918.[20] Ma B D,Zhang L,Gao B Y,et al.Interfacial Dilational Rheological Property and Lamella Stability of Branched Alkyl Benzene Sulfonates Solutions[J].Colloid Polym Sci,2011,289(8):911-918.
21. [21] Cui X H,Zhang L,Luo L,et al.Interfacial Dilational Properties of Model Oil and Chemical Flooding Systems by Relaxation Measurements[J].Colloids Surf A:Physicochem Eng Asp,2010,369(1):106-112.[21] Cui X H,Zhang L,Luo L,et al.Interfacial Dilational Properties of Model Oil and Chemical Flooding Systems by Relaxation Measurements[J].Colloids Surf A:Physicochem Eng Asp,2010,369(1):106-112.
22. [22] Zhou Z H,Zhang L,Xu Z C,et al.Surface Dilational Properties and Foam Properties of Novel Benzene Sulfonate Surfactants[J].J Dispersion Sci Technol,2010,32(1):95-101.[22] Zhou Z H,Zhang L,Xu Z C,et al.Surface Dilational Properties and Foam Properties of Novel Benzene Sulfonate Surfactants[J].J Dispersion Sci Technol,2010,32(1):95-101.
23. [23] Sun H Q,Zhang L,Zhang L,et al.Interfacial Dilational Properties of Acidic Model Oil and Chemical Flooding Systems[J].J Dispersion Sci Technol,2011,32(3):389-394.[23] Sun H Q,Zhang L,Zhang L,et al.Interfacial Dilational Properties of Acidic Model Oil and Chemical Flooding Systems[J].J Dispersion Sci Technol,2011,32(3):389-394.
24. [24] Zhang J C,Zhang L,Wang X C,et al.A Surface Rheological Study of Polyoxyethylene Alkyl Ether Carboxylic Salts and the Stability of Corresponding Foam[J].J Dispersion Sci Technol,2011,32(3):372-379.[24] Zhang J C,Zhang L,Wang X C,et al.A Surface Rheological Study of Polyoxyethylene Alkyl Ether Carboxylic Salts and the Stability of Corresponding Foam[J].J Dispersion Sci Technol,2011,32(3):372-379.
25. [25] Wang Z L,Li Z Q,Zhang L,et al.Dilational Properties of Sodium 2,5-Dialkyl Benzene Sulfonates at Air-water and Decane-water Interfaces[J].J Chem Eng Data,2011,56(5):2393-2398.[25] Wang Z L,Li Z Q,Zhang L,et al.Dilational Properties of Sodium 2,5-Dialkyl Benzene Sulfonates at Air-water and Decane-water Interfaces[J].J Chem Eng Data,2011,56(5):2393-2398.
26. [26] You Y,Zhong B.X,Zhao J X.Adsorption and Micellization of Alkanediyl-bis (dimethyldodecylammonium bromide) in Isopropyl Myristate/aqueous System[J].Colloid Polym Sci,2010,288(14):1359-1367.[26] You Y,Zhong B.X,Zhao J X.Adsorption and Micellization of Alkanediyl-bis (dimethyldodecylammonium bromide) in Isopropyl Myristate/aqueous System[J].Colloid Polym Sci,2010,288(14):1359-1367.
27. [27] Zhao J X,Deng Y S,Pei X M.NaBr Induced Strong Adsorption of Bis-(quaternary ammonium) Gemini Surfactants with Long Polymethylene Spacer Chain at Air/water Interface[J].Colloids Surf A:Physicochem Eng Asp,2010,369(1/2/3):34-38.[27] Zhao J X,Deng Y S,Pei X M.NaBr Induced Strong Adsorption of Bis-(quaternary ammonium) Gemini Surfactants with Long Polymethylene Spacer Chain at Air/water Interface[J].Colloids Surf A:Physicochem Eng Asp,2010,369(1/2/3):34-38.
28. [28] Wu X N,Zhao J X,Li E,et al.Interfacial Dilational Viscoelasticity and Foam Stability in Quaternary Ammonium Gemini Surfactant Systems:Influence of Intermolecular Hydrogen Bonding[J].Colloid Polym Sci,2011,289(9):1025-1034.[28] Wu X N,Zhao J X,Li E,et al.Interfacial Dilational Viscoelasticity and Foam Stability in Quaternary Ammonium Gemini Surfactant Systems:Influence of Intermolecular Hydrogen Bonding[J].Colloid Polym Sci,2011,289(9):1025-1034.
29. [29] Che Y J,Cao J,Gong H J,et al.Dilational Rheological Properties of Fluorocarbon Modified Poly (acrylamide) s at the Air/Water Surface[J].J Dispersion Sci Technol,2011,32(2):174-184.[29] Che Y J,Cao J,Gong H J,et al.Dilational Rheological Properties of Fluorocarbon Modified Poly (acrylamide) s at the Air/Water Surface[J].J Dispersion Sci Technol,2011,32(2):174-184.
30. [30] He F,Xu G,Pang J,et al.Effect of Amino Acids on Aggregation Behaviors of Sodium Deoxycholate at Air/Water Surface:Surface Tension and Oscillating Bubble Studies[J].Langmuir,2010,27(2):538-545.[30] He F,Xu G,Pang J,et al.Effect of Amino Acids on Aggregation Behaviors of Sodium Deoxycholate at Air/Water Surface:Surface Tension and Oscillating Bubble Studies[J].Langmuir,2010,27(2):538-545.
31. [31] WEI Jing,XU Qun.Study on Synthesis of N-Dodecyl Imidazole[J].J Sci Teachers'College Univ,2013,33(6):51-52(in Chinese).魏静,徐群.N-十二烷基咪唑合成研究[J].高师理科学刊,2013,33(6):51-52.[31] WEI Jing,XU Qun.Study on Synthesis of N-Dodecyl Imidazole[J].J Sci Teachers'College Univ,2013,33(6):51-52(in Chinese).魏静,徐群.N-十二烷基咪唑合成研究[J].高师理科学刊,2013,33(6):51-52.
32. [32] HU Jie.Synthesis and Properties of Imidazolium-based Surfactants[D].Wuxi:Jiangnan University,2012:18-21(in Chinese).胡洁.咪唑基表面活性剂的合成与性能研究[D].无锡:江南大学,2012:18-21.[32] HU Jie.Synthesis and Properties of Imidazolium-based Surfactants[D].Wuxi:Jiangnan University,2012:18-21(in Chinese).胡洁.咪唑基表面活性剂的合成与性能研究[D].无锡:江南大学,2012:18-21.
33. [33] Lucassen J,Van Den Tempel M.Dynamic Measurements of Dilational Properties of a Liquid Interface[J].Chem Eng Sci,1972,27(6):1283-1291.[33] Lucassen J,Van Den Tempel M.Dynamic Measurements of Dilational Properties of a Liquid Interface[J].Chem Eng Sci,1972,27(6):1283-1291.
34. [34] Lucassen-Reynders E H.Anionic Surfactants:Physical Chemistry of Surfactant Action[M].Dekker M,1981:640-653.[34] Lucassen-Reynders E H.Anionic Surfactants:Physical Chemistry of Surfactant Action[M].Dekker M,1981:640-653.
35. [35] Van den Tempel M,Lucassen-Reynders E H.Relaxation Processes at Fluid Interfaces[J].Adv Colloid Interface Sci,1983,18(3):281-301.[35] Van den Tempel M,Lucassen-Reynders E H.Relaxation Processes at Fluid Interfaces[J].Adv Colloid Interface Sci,1983,18(3):281-301.
36. [36] TONG Haiying.Dilatational Rheological Viscoelasticity Properties of Surface Active Materials[D].Shanghai:East China Normal University,2007:32-33(in Chinese).童海英.表面活性物质的界(表)面扩张流变粘弹性研究[D].上海:华东师范大学,2007:32-33.[36] TONG Haiying.Dilatational Rheological Viscoelasticity Properties of Surface Active Materials[D].Shanghai:East China Normal University,2007:32-33(in Chinese).童海英.表面活性物质的界(表)面扩张流变粘弹性研究[D].上海:华东师范大学,2007:32-33.
37. [37] Cao C,Huang T,Zhang L,et al.Interfacial Rheological Behavior of Ionic Liquid-type Imidazolium Surfacetant[J].Colloids Surf A:Physicochem Eng Asp,2013,436(5):557-562.[37] Cao C,Huang T,Zhang L,et al.Interfacial Rheological Behavior of Ionic Liquid-type Imidazolium Surfacetant[J].Colloids Surf A:Physicochem Eng Asp,2013,436(5):557-562.
38. [38] WANG Yiyang,ZHANG Lu,SUN Taolei,et al.Influences of Demulsifiers with Different Structures on Dilational Properties of Decane/Water Interface[J].Acta Phys-Chim Sin,2003,19(4):297-301(in Chinese).王宜阳,张路,孙涛垒,等.不同结构破乳剂油水界面扩张粘弹性研究[J].物理化学学报,2003,19(4):297-301.[38] WANG Yiyang,ZHANG Lu,SUN Taolei,et al.Influences of Demulsifiers with Different Structures on Dilational Properties of Decane/Water Interface[J].Acta Phys-Chim Sin,2003,19(4):297-301(in Chinese).王宜阳,张路,孙涛垒,等.不同结构破乳剂油水界面扩张粘弹性研究[J].物理化学学报,2003,19(4):297-301.

扫一扫看文章

计量

PDF下载量: 0
文章访问数: 285
HTML全文浏览量: 52

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

十二烷基硫酸钠对两性咪唑类离子液体表面活性剂1-磺丙基-3-十二烷基咪唑内盐界面聚集行为的影响

通讯作者: 尚亚卓,教授;Tel/Fax:021-64252767;E-mail:shangyazhuo@ecust.edu.cn;研究方向:胶体与界面化学

English

Effect of Sodium Dodecyl Sulfate on Interfacial Aggregation Behavior of Zwitterionic Imidazole Surfactant 3-(1-Dodecyl-3-imidazolio)propanesulfonate

Corresponding author: 尚亚卓,教授;Tel/Fax:021-64252767;E-mail:shangyazhuo@ecust.edu.cn;研究方向:胶体与界面化学

CCS Chemistry：嵌段共聚物自组装成 “三明治”二维有机材料，实现纳米级压力传感功能

CCS Chemistry：颜徐州、鲍哲南：你的皮肤可能是一片SPMs

CCS Chemistry：工作高效不疲劳，只须让催化剂动起来

CCS Chemistry：静电组装导向聚合- 聚电解质纳米凝胶量化制备新策略

CCS Chemistry：金黄色葡萄球菌醛基脱氢酶是如何识别特异性底物的？

计量

通讯作者: 陈斌, bchen63@163.com

中国化学会秘书处

十二烷基硫酸钠对两性咪唑类离子液体表面活性剂1-磺丙基-3-十二烷基咪唑内盐界面聚集行为的影响

通讯作者: 尚亚卓,教授;Tel/Fax:021-64252767;E-mail:shangyazhuo@ecust.edu.cn;研究方向:胶体与界面化学

English

Effect of Sodium Dodecyl Sulfate on Interfacial Aggregation Behavior of Zwitterionic Imidazole Surfactant 3-(1-Dodecyl-3-imidazolio)propanesulfonate

Corresponding author: 尚亚卓,教授;Tel/Fax:021-64252767;E-mail:shangyazhuo@ecust.edu.cn;研究方向:胶体与界面化学

CCS Chemistry：嵌段共聚物自组装成 “三明治”二维有机材料，实现纳米级压力传感功能

CCS Chemistry：颜徐州、鲍哲南： 你的皮肤可能是一片SPMs

CCS Chemistry：工作高效不疲劳，只须让催化剂动起来

CCS Chemistry：静电组装导向聚合- 聚电解质纳米凝胶量化制备新策略

CCS Chemistry：金黄色葡萄球菌醛基脱氢酶是如何识别特异性底物的？

计量

文章相关

通讯作者: 陈斌, bchen63@163.com

中国化学会秘书处

CCS Chemistry：颜徐州、鲍哲南：你的皮肤可能是一片SPMs