基于喷墨打印水溶性聚合物模板在简易制备的超亲水层上构建超疏水区域

Patterning a Superhydrophobic Area on a Facile Fabricated Superhydrophilic Layer Based on an Inkjet-Printed Water-Soluble Polymer Template.

作者信息

Sun Jiazhen, Li Yang, Liu Guangping, Chu Fuqiang, Chen Chen, Zhang Yang, Tian Hongshan, Song Yanlin

机构信息

State Key Laboratory of Biobased Material and Green Papermaking, Key Laboratory of Pulp and Paper Science & Technology of Ministry of Education/Shandong Province, Key Laboratory of Pulp, Paper, Printing & Packaging of China National Light Industry, Key Laboratory of Green Printing & Packaging Materials and Technology in Universities of Shandong Province, School of Light Industry Science and Engineering, School of Chemistry and Pharmaceutical Engineering, Qilu University of Technology (Shandong Academy of Sciences), Jinan 250353, China.

Key Laboratory of Green Printing, Institute of Chemistry, Chinese Academy of Sciences, Beijing Engineering Research Center of Nanomaterials for Green Printing Technology, Beijing National Laboratory for Molecular Sciences, Beijing 100190, China.

出版信息

Langmuir. 2020 Aug 25;36(33):9952-9959. doi: 10.1021/acs.langmuir.0c01769. Epub 2020 Aug 11.

DOI:10.1021/acs.langmuir.0c01769

PMID:32787129

Abstract

An elaborated surface with a superhydrophilic area and a superhydrophobic area was fabricated by inkjet printing a water-soluble polymer template on a superhydrophilic layer. Titanate was used to generate the superhydrophilic layer with an in situ reaction. A water-soluble polymer template was inkjet printed on the facile fabricated superhydrophilic layer. Superhydrophobic treatment was carried out on the inkjet-printed surface with perfluorinated molecules. A superhydrophilic-superhydrophobic patterned surface (SSPS) was obtained by washing out the water-soluble polymer template. Various patterns of SSPS were fabricated with the different water-soluble polymer templates. Then, adhesion and deposition of water droplets were studied on the SSPS with the different wetting abilities on the surface. Meanwhile, a microreaction with a microfluidic chip was realized on the SSPS. In this work, systematic research on fabricating an SSPS based on a facile fabricated superhydrophilic layer with an inkjet-printed water-soluble polymer template is presented. It will have great potential for patterning materials, fabricating devices, and researching interfaces, such as microdroplet self-removal, analyte enrichment, and liquid-liquid interface reaction.

摘要

通过在超亲水层上喷墨打印水溶性聚合物模板，制备了具有超亲水区域和超疏水区域的精细表面。利用钛酸盐通过原位反应生成超亲水层。将水溶性聚合物模板喷墨打印在易于制备的超亲水层上。用全氟分子对喷墨打印的表面进行超疏水处理。通过洗去水溶性聚合物模板，获得了超亲水-超疏水图案化表面（SSPS）。使用不同的水溶性聚合物模板制备了各种图案的SSPS。然后，研究了具有不同表面润湿性的SSPS上水滴的附着力和沉积情况。同时，在SSPS上实现了与微流控芯片的微反应。在这项工作中，提出了基于易于制备的超亲水层和喷墨打印的水溶性聚合物模板制备SSPS的系统研究。它在材料图案化、器件制造和界面研究方面具有巨大潜力，如微滴自去除、分析物富集和液-液界面反应。

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基于喷墨打印水溶性聚合物模板在简易制备的超亲水层上构建超疏水区域

Patterning a Superhydrophobic Area on a Facile Fabricated Superhydrophilic Layer Based on an Inkjet-Printed Water-Soluble Polymer Template.

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