表面粗糙度对PCTE膜与PDMS间键合强度的影响

ty10086 提交于 周三, 08/25/2021 - 16:26
文章英文标题
Effect of surface roughness on bond strength between PCTE membranes and PDMS towards microfluidic applications
正文
微流控平台是生命科学研究、材料合成、药物发现和环境监测与保护等广泛领域应用的使能技术。大多数应用需要分离或过滤样品,例如细胞或颗粒分离,这些分离可以通过操纵流动和通道几何、利用外力或集成片上膜来实现。膜很方便,不需要精确控制流量和通道尺寸,也不需要使用外力。作为制作微流控器件最常用的材料之一的聚二甲基硅氧烷( PDMS )也被用于制作片上膜,但集成显得繁琐,重现性较低。能够制造出高标准的聚碳酸酯( PCTE )膜是极好的替代品,在微流控应用中已显示出成功。然而,由于缺乏与微流控器件集成的细节,它们在微流控领域的应用受到了限制。本研究为PCTE膜与PDMS的结合强度提供了更进一步的认识,并提出了一套详细的通过氨基硅烷介导的等离子体处理将其结合的程序。由于制造工艺的原因,膜具有光滑粗糙的一面,在一定的压力范围内,人们仔细评估了它们与PDMS器件的结合强度。研究发现,应优先选择光滑的侧面作为初级结合面,但只要程序得当,粗糙的侧面可以达到类似的效果。详细介绍了这两种方法的实现过程,这对需要夹层膜结构的微流控器件具有重要的实际影响。
文章内容(英文)
Microfluidic platform is an enabling technology for a wide range of applications such as life science research, material synthesis, drug discovery and environmental monitoring and protection. Most applications require separation or filtration of samples such as cell or particle separation which can be achieved by manipulating flow and channel geometries, leveraging external forces or integrating on-chip membranes. Membranes are convenient without the need of precise control of flow and channel dimensions or the need to use external forces. Polydimethylsiloxane (PDMS) which is one of the most widely used materials for making microfluidic devices has also been used to make on-chip membranes, but the integration appears to be tedious and have low reproducibility. Polycarbonate (PCTE) membranes which can be manufactured to a high standard are excellent alternatives and have demonstrated success in microfluidic applications. However, their use in microfluidics has been limited due to the lack of details for their integration with microfluidic devices. This study provides an improved understanding of the bond strength between PCTE membranes and PDMS and presents a detailed set of procedures for bonding them by aminosilane-mediated plasma treatment. Due to the manufacturing process, the membranes have a smooth and rough side, which were carefully evaluated in terms of their bonding strength with PDMS devices for a range of applied pressures. It was found that the smooth side should be preferentially chosen as the primary bonding surface, however, with proper procedures, the rough side can achieve similar results. The procedures for both are provided in detail, which has important practical impact on microfluidic devices that require a sandwiched membrane structure.
来源出处
Journal|[J]International Journal of Adhesion and Adhesives2020. PP 102800-
DOI
https://doi.org/10.1016/J.IJADHADH.2020.102800

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一般性的产品性能参数表参考以下小桶装的参数:

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品牌型号:道康宁SYLGARD184

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产品颜色:保质期限:36个月

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备注说明:

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