Abstract: The present disclosure provides, in various aspects and embodiments, methods, compositions, and devices for magnetic nanoparticle based assay of nucleic acid sequence targets using isothermal amplification. Uses of the disclosure include detection of bacterial and/or virus nucleic acid sequence targets.

Abstract: A centrifugal microfluidic chip is provided that allows an on-chip chamber to provide humidification control, or more generally, gas composition control, to another chamber of the chip. This allows for microfluidic incubation using low-cost and efficient centrifugal devices such as multi-port pneumatic chip controllers, single or multi-port pneumatic slip rings, and articulated centrifugal blades with a pneumatic slip ring. The device may be used for cell culturing, microorganism testing, or production of chemical species from biological samples with a controlled microenvironment.

Abstract: A centrifugal microfluidic platform is combined with a stationary liquid pumping system which pumps liquids into microfluidic chips by dripping through a stationary dispensing nozzle without any physical contact or coupling between the nozzles and the microfluidic chips.

Abstract: A technique for producing an artificial biointerface involves providing a patterned microfluidic chip having: a chamber divided by a fluid-permeable fencing into a central region and two flanking channels; and at least 3 fluid paths, each of the paths extending across one of the central region and the two flanking channels. A porous packing of rigid beads is placed within the central region to define a bead bed, the beads being of a size to be retained by the fencing. A biowall can be grown on at least one segment of the fencing separating the central region from one flanking channel, the biowall formed at least in part by live cells cultured on the beads. Beads may be modified, coated or functionalized to improve cell attachment and growth, and for reporting, or dosing particles or molecules can be conveniently added to the bead bed.