Study on rheology of a novel UV-light sensitive trimeric anionic–cationic surfactant/trans-o-methoxycinnamic acid micellar system

IF 1.2 4区工程技术 Q4 CHEMISTRY, APPLIED

Tenside Surfactants Detergents Pub Date : 2023-11-30 DOI:10.1515/tsd-2023-2554

Xiaoyang Han, Wenting Xu, Bo Fang, Yudie Li, Zhenrui Tian

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引用次数: 0

Abstract

Two novel UV photosensitive micellar systems, trimeric dodecyl anionic–cationic surfactant (TDCC)/trans-OMCA, and trimeric cetyl anionic–cationic surfactant (TCCC)/trans-OMCA, were successfully synthesized by using two different carbon chain length trimeric anionic–cationic surfactants (TACS, including TDCC and TCCC) and the photosensitive additive trans-o-methoxycinnamic acid (trans-OMCA). The incorporation of trans-OMCA resulted in a peak in the zero shear viscosity (η 0) of the system at pH = 6.17–6.61. The flow behaviour of the TACS/OMCA system was well described by the Carreau-Yasuda model. Prior to UV irradiation, the TCCC/trans-OMCA system exhibited pronounced shear thinning, thixotropic, and viscoelastic properties. After UV irradiation at 365 nm, the isomerization of trans-OMCA to cis-OMCA caused the disruption of the network structures, leading to a significant decrease in the thixotropic and viscoelastic properties, resulting in a decrease in viscosity. The viscosity reduction rate of the TCCC/trans-OMCA system reached 99 %. The influence of the hydrophobic carbon chain length on the UV responsiveness was also investigated. The TDCC/trans-OMCA system exhibited an 86 % decrease in η 0 after UV irradiation, highlighting the favorable effect of longer hydrophobic tail chains in improving the UV responsiveness of the micellar system. The UV light kinetics of the TCCC/trans-OMCA solution were studied and a rheological model was developed to accurately describe the viscosity changes. The TCCC was found to predominantly exhibit cationic characteristics at pH = 6.17–6.61. In this pH range, the 2 wt% TCCC/0.12 wt% NaSal system exhibited excellent viscoelasticity, and the addition of trans-OMCA disrupted the network structure resulting in a decrease in viscosity. After UV irradiation, the viscosity of the system increased by 2.5 times, confirming the potential of the TCCC/NaSal/trans-OMCA micellar system as a UV thickener.

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新型紫外敏感阴离子-阳离子三聚体表面活性剂/反式-邻甲氧基肉桂酸胶束体系流变学研究

采用两种碳链长度不同的三聚阴离子-阳离子表面活性剂(TACS，包括TDCC和TCCC)和光敏添加剂反式-邻甲氧基肉桂酸(trans-OMCA)，成功合成了三聚十二烷基阴离子-阳离子表面活性剂(TDCC)/反式omca和三聚十六烷基阴离子-阳离子表面活性剂(TCCC)/反式omca两种新型紫外光敏胶束体系。trans-OMCA的加入使体系的零剪切粘度(η 0)在pH = 6.17-6.61时达到峰值。carau - yasuda模型很好地描述了TACS/OMCA体系的流动特性。在紫外线照射之前，TCCC/trans-OMCA体系表现出明显的剪切变薄、触变和粘弹性。在365 nm紫外线照射后，反式omca异构化为顺式omca，导致网络结构破坏，导致触变性和粘弹性显著降低，导致粘度降低。TCCC/trans-OMCA体系的降粘率达到99%。研究了疏水碳链长度对紫外响应性的影响。紫外辐照后，TDCC/trans-OMCA体系的η值降低了86%，表明较长的疏水尾链对提高胶束体系的紫外响应性有良好的作用。研究了TCCC/trans-OMCA溶液的紫外光动力学，建立了准确描述粘度变化的流变学模型。发现TCCC在pH = 6.17 ~ 6.61时主要表现为阳离子特征。在此pH范围内，2 wt% TCCC/0.12 wt% NaSal体系表现出优异的粘弹性，而trans-OMCA的加入破坏了网络结构，导致粘度降低。经UV照射后，体系的粘度提高了2.5倍，证实了TCCC/NaSal/trans-OMCA胶束体系作为UV增稠剂的潜力。

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来源期刊

Tenside Surfactants Detergents 工程技术-工程：化工

CiteScore

1.90

自引率

10.00%

发文量

审稿时长

3.8 months

期刊介绍： Tenside Surfactants Detergents offers the most recent results of research and development in all fields of surfactant chemistry, such as: synthesis, analysis, physicochemical properties, new types of surfactants, progress in production processes, application-related problems and environmental behavior. Since 1964 Tenside Surfactants Detergents offers strictly peer-reviewed, high-quality articles by renowned specialists around the world.