2014, Restrepo-Pérez, Laura, Meyer, Anne K., Helbig, Linda, Sanchez, Samuel, Schmidt, Oliver G.

Sample pre-concentration is crucial to achieve high sensitivity and low detection limits in lab-on-a-chip devices. Here, we present a system in which self-propelled catalytic micromotors are biofunctionalized and trapped acting as an alternative concentrating mechanism. This system requires no external energy source, which facilitates integration and miniaturization.

2014, Restrepo-Pérez, Laura, Soler, Lluís, Martínez-Cisneros, Cynthia S., Sanchez, Samuel, Schmidt, Oliver G.

We demonstrate that catalytic micromotors can be trapped in microfluidic chips containing chevron and heart-shaped structures. Despite the challenge presented by the reduced size of the traps, microfluidic chips with different trapping geometries can be fabricated via replica moulding. We prove that these microfluidic chips can capture micromotors without the need for any external mechanism to control their motion.