Abstract
The world-to-chip interface is an essential yet intriguing part of making and employing microfluidic devices. A user-friendly connector could be expensive or difficult to make. We fabricated two ports of microfluidic chips with easily available materials including Teflon blocks, double adhesive films, coverslips, and transparency films. By using a mini grinder, coverslips were drilled to form small holes for the fluid passages between port and chip. Except for the double adhesive films, the resultant ports are durable and re-useable. The DK1 port, contains a mini three-way switch which allows users to handle fluid by a tube-connected pump, or by a manual pipette for the sample of trace amount. The other port, the DK2 port, provides secured tube-connections. Importantly, we invented a bridge made of craft cutter-treated transparency films and double adhesive films to mediate liquid flow between DK2 port and chip. With the use of a bridge, users do not need to design new ports for new chips. Also, individual chips could be linked by a bridge to form a chip array. We successfully applied DK1 port on a microfluidic chip where green fluorescent protein was immobilized. We used DK2 port on an array of fish chips where the embryos of zebra fish developed.
Highlights
Microfluidic devices are recognized as an attractive and powerful tool in modern sciences and technologies [1,2,3,4]
For our research and teaching needs, we developed the following fabrications of chip and port to immobilized protein in specific area of the chip
The immobilization of proteins in the surface of microfluidic chips is a frequently performed of DK ports
Summary
Microfluidic devices are recognized as an attractive and powerful tool in modern sciences and technologies [1,2,3,4]. They developed various interconnections with one or several of the features of low cost [17], easy to use [18,19,20,21,22,23], re-usability [20,23,24,25,26,27,28], low dead volume [17], etc In spite of those reports, many microfluidic devices remain equipped with inconvenient tube connections for example, singularly planted tubes onto individual ports on a sophisticated microfluidic chip, which could be expensive and non-reusable. The chip should be equipped with low-cost and reusable ports which
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