Influence of the Porphyrin Structures on the Contact Angle of Water Wetting by Langmuir-Schaefer Films

IF 0.3 Q4 CRYSTALLOGRAPHY Liquid Crystals and their Application Pub Date : 2023-12-26 DOI:10.18083/lcappl.2023.4.31
Konstantin S. Nikitin, O. Maltceva, N. Mamardashvili, N. Usol'tseva
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Abstract

Studying the contact angle of water droplets on the surfaces of thin films formed by organic compounds allows to establish hydrophilic/hydrophobic properties of the films. Knowledge of hydrophilicity/hydrophobicity makes it possible to optimize the composition and increase the adhesive properties of films, improving their functionality. In this study, the dependence of the contact angle of Langmuir-Schaefer films (LS-films) of three compounds: 5,10,15,20-tetraphenylporphyrin (I), 2-aza-21-carba-5,10,15,20-tetraphenyl-porphyrin (II), and 5,15-bis(2,6-bis(dodecycloxy)phenyl)porphyrin (III) was examined. Contact angle data were obtained for LS-films with different transfer numbers of floating layers of the studied porphyrins and different surface roughness. It was found that LS-films of compounds I and II are hydrophobic and their hydrophobicity increases with an increasing of transfer number. In addition, an increase in the surface roughness of the LS film of compound I compared to compound II reduces the value of the contact angle. Unlike porphyrins I and II, LS-films of compound III displayed hydrophilic properties. The obtained data can be used for the targeted design of compounds to create thin film materials of various purposes.
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卟啉结构对 Langmuir-Schaefer 薄膜润湿水的接触角的影响
通过研究有机化合物形成的薄膜表面上水滴的接触角,可以确定薄膜的亲水性/疏水性。了解了亲水性/疏水性,就有可能优化薄膜的成分,增加薄膜的粘合性,从而提高薄膜的功能性。本研究分析了三种化合物的朗缪尔-谢弗薄膜(LS-薄膜)的接触角:5,10,15,20-四苯基卟啉(I)、2-氮杂-21-碳杂-5,10,15,20-四苯基卟啉(II)和 5,15-双(2,6-双(十二烷氧基)苯基)卟啉(III)。获得了所研究卟啉浮层转移数量不同、表面粗糙度不同的 LS 薄膜的接触角数据。结果发现,化合物 I 和 II 的 LS 薄膜具有疏水性,并且其疏水性随着转移数的增加而增加。此外,与化合物 II 相比,化合物 I LS 薄膜表面粗糙度的增加会降低接触角的值。与卟啉 I 和 II 不同,化合物 III 的 LS 薄膜具有亲水性。所获得的数据可用于有针对性地设计化合物,以制造各种用途的薄膜材料。
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来源期刊
CiteScore
1.30
自引率
40.00%
发文量
30
期刊介绍: The Journal presents the following main directions of creation/construction, study and application of self-assembled materials: SYNTHESIS, STRUCTURE, PROPERTIES, MEDICINE, BIOLOGY, NANOTECHNOLOGY, SENSORS, PRACTICAL APPLICATION and INFORMATION. The journal is addressed to researchers, lecturers, university students, engineers. The publisher of the journal is the Nanomaterials Research Institute of "Ivanovo State University".
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