Jianhan Lin

TL;DR: This work reviews recent advances on the passive and active micromixers for the development of various microfluidic chips and brings forth the future trends for micromixeders to combine with 3D printing and paper channel.

TL;DR: This biosensor exhibited a good specificity and sensitivity for detection of E. coli O157:H7 in chicken samples with a lower detection limit of 50 CFU/mL.

TL;DR: A microfluidic biosensor based on immunomagnetic separation, fluorescence labeling and smartphone video processing that was able to quantitatively detect Salmonella typhimurium and could be extended for detection of multiple foodborne pathogens using different fluorescent materials.

TL;DR: In this article, the authors used the double-layer channel with the immune magnetic nanoparticles (MNPs) for specific separation and efficient concentration of the target bacteria, and the immune quantum dots (QDs) with the portable optical system for quantitative detection of the bacteria.

TL;DR: A novel impedance biosensor combining immunomagnetic separation with urease catalysis for sensitive detection of foodborne bacteria using Listeria monocytogenes as model and an immobilization-free microelectrode as detector showed its potential to provide a simple, low-cost and sensitive method for rapid screening of foodbourne pathogens.