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A preparation method of superhydrophobic surface with directional transport function

A super-hydrophobic surface and functional technology, applied in the process of producing decorative surface effects, manufacturing microstructure devices, coatings, etc., can solve the problems of uncontrollable scratching force, poor controllability, and ineffective cooperation, etc., to achieve Improvement of superhydrophobic performance, precise position of vapor deposition, and the effect of increasing rolling performance

Active Publication Date: 2020-05-26
SHANDONG UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] 1. The chemical etching method is used to construct a rough micro-nano composite structure on the substrate. This structure can only be formed vertically on the substrate, and cannot form a unidirectional inclined structure with a certain inclination angle, and the generated microstructure morphology is also poor. unable to regulate
[0008] 2. The micro-nano composite structure constructed on the substrate by chemical etching method, the generated micro-scale structure and nano-scale structure cannot be adjusted, so the two structures cannot be effectively matched. Although the surface presents super hydrophobicity, the droplet is Surface does not roll well
[0009] 3. Use a knife to scratch a certain track on the super-hydrophobic surface according to the actual needs to realize the directional transport of the droplets. However, due to the uncontrollable force of the scraping, it will cause the scraped track to be in and out of the track of the required directional transport. The directional transport of droplets cannot be effectively realized, and the controllability is poor

Method used

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  • A preparation method of superhydrophobic surface with directional transport function
  • A preparation method of superhydrophobic surface with directional transport function
  • A preparation method of superhydrophobic surface with directional transport function

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Embodiment 1

[0059] In conjunction with the accompanying drawings, a method for preparing a superhydrophobic surface with directional transport function, comprising the following steps:

[0060] The first step is to spin-coat UV photoresist (positive resist) for the first UV photolithography

[0061] (1) According to the needs, pre-design the pattern to be photolithographic;

[0062] (2) Take a silicon substrate 1 with a size of 25mm×25mm, ultrasonically clean it with acetone, ethanol, and deionized water for 10 minutes, and dry it with nitrogen;

[0063] (3) Put the clean silicon substrate 1 on the homogenizer, use a micropipette to drop an appropriate amount of UV photoresist 2 (positive resist) on the silicon substrate 1, the model is AZ5214E, and set the pre-spin coating speed and time were 500rpm and 10s respectively, and the rotating speed and time of spin coating were 4000rpm and 30s respectively, and the glue was evenly distributed;

[0064] (4) Horizontally fix the silicon subst...

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Abstract

The invention discloses a preparation method of a super-hydrophobic surface with a directional transport function. The method comprises the following steps: step 1, spin coating a first layer of ultraviolet lithography positive photoresist for the first ultraviolet lithography; step 2, spin coating a second layer of ultraviolet lithography negative photoresist, and tilting a substrate for the second ultraviolet lithography; step 3, dip coating low surface energy nanoparticles; and step 4, evaporating a hydrophilic metal thin film in a vacuum mode, and generating a required directional transport track to obtain the super-hydrophobic surface with the directional transport function. According to the preparation method of the super-hydrophobic surface with the directional transport function provided by the invention, through twice ultraviolet lithography, the specific surface area of a microstructure is increased on one hand, so that the roughness after dip coating the low-surface energy nanoparticles is sufficient; and on the other hand, when the second lithography is performed, the substrate is intentionally inclined for exposure, so that a one-way inclined structure with a certain inclination angle is obtained, therefore a rolling direction is given in advance. The pre-given rolling direction is combined with a hydrophilic transportation track obtained through later evaporation,so that the directional transport of liquid drops is better realized.

Description

technical field [0001] The invention relates to the field of super-hydrophobic surface processing, in particular to a method for preparing a super-hydrophobic surface with directional transport function. Background technique [0002] The superhydrophobic surface is a kind of bionic functional surface inspired by the "lotus leaf effect". Usually, the contact angle of water droplets is greater than 150°, and the rolling angle is less than 10°. There are also nanostructures on the micro-papillary structure on the surface of the lotus leaf. This micro-nano composite structure has an important impact on superhydrophobicity. Roll down, so that the lotus leaf has good self-cleaning performance. [0003] Oriented transport of water droplets refers to the rolling of water droplets along a designed track on a superhydrophobic surface, which has great potential value in the field of droplet shunting. In the existing technology, a hydrophilic track is set on the superhydrophobic surfa...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B81C1/00
CPCB81C1/00206
Inventor 王清王宁徐双双郑旭
Owner SHANDONG UNIV OF SCI & TECH
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