A simple method of constructing microfluidic solid-state quantum dot molecular beacon array for label-free DNA detection

Solid-state molecular beacons show great potential for label-free biomarker detection, however, it is challenging to construct robust and homogenous quantum dot molecular beacon microarrays in a microfluidic platform. Here, we report a simple and cost-effective method of constructing a mercaptopropionic acid quantum dot (MPAQD) microarray in a microfluidic platform using a PDMS through-hole structure. This method combines soft lithography and surface functionalization to achieve uniform QD immobilization in a microfluidic network. With the simple fabricated quantum dot microarray sensor integrated in the microfluidic device, label-free biomarker detection was performed with high efficiency, specificity and sensitivity. We performed cardiovascular biomarker detection, and our microfluidic QD molecular beacon platform achieved target DNA sequence identification at a low concentration of 1 nM/L.