受自然启发的光滑聚合物薄膜,用于防冰应用

IF 1.3 4区 工程技术 Q4 ENGINEERING, BIOMEDICAL Bioinspired Biomimetic and Nanobiomaterials Pub Date : 2021-09-02 DOI:21.00027
Vu Thi Hong Hanh, Mai Xuan Truong, Tu Quang Tan, Thanh-Binh Nguyen
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引用次数: 0

摘要

在这项研究中,作者研究了一种分层光滑聚合物薄膜的防冰性能,这种薄膜的灵感来自荷叶和猪笼草的结构。将聚合物溶液与适当浓度的润滑剂混合以获得光滑性能。采用干刻蚀法和旋涂法在薄膜上生成均匀的聚合物微观结构。聚合物纳米结构随后通过使用四氟化碳(CF4)气体的附加等离子体蚀刻方法产生。通过与非功能试件的抗冰效果对比,验证了各指标组合的优势。此外,利用基于自由能方法的理论预测方法测量了界面处的成核时间,结果与实时测量结果吻合较好。研究结果为室外防冰应用提供了一种新的简便方法。
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Nature-inspired slippery polymer thin film for ice-repellent applications
In this study, the authors investigated the anti-icing performance of a hierarchical slippery polymer thin film that is inspired by structures of the lotus leaf and Nepenthes pitcher plant. The polymer solution was mixed with the lubricant at the appropriate concentration to achieve slippery properties. The dry etching method followed by the spin-coating process was used to generate a uniform polymer microstructure on the thin film. The polymer nanostructure was then yielded by an additional plasma-etching method using carbon tetrafluoride (CF4) gas. The anti-icing efficiency was then compared with that of the non-functional samples to demonstrate the advantages of combination in all criteria. Moreover, a theoretical prediction based on the free-energy approach was used to measure the nucleation time at the interface and illustrated good agreement with real-time measurement. The results propose a new and facile approach for outdoor anti-icing applications.
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来源期刊
Bioinspired Biomimetic and Nanobiomaterials
Bioinspired Biomimetic and Nanobiomaterials ENGINEERING, BIOMEDICAL-MATERIALS SCIENCE, BIOMATERIALS
CiteScore
2.20
自引率
0.00%
发文量
12
期刊介绍: Bioinspired, biomimetic and nanobiomaterials are emerging as the most promising area of research within the area of biological materials science and engineering. The technological significance of this area is immense for applications as diverse as tissue engineering and drug delivery biosystems to biomimicked sensors and optical devices. Bioinspired, Biomimetic and Nanobiomaterials provides a unique scholarly forum for discussion and reporting of structure sensitive functional properties of nature inspired materials.
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