Abstract: A highly integrated, fully automatic chemiluminescence detection equipment and its operation method are disclosed. The chemiluminescence detection equipment comprises a control module, a first electrical machine, a reagent wheel disc tank, a sampling module, a washing module, a second electrical machine and a detection module. Compared with the traditional large-scale chemiluminescence detection equipment, the chemiluminescence detection equipment of the present invention has the advantage of high integration, and greatly reduces the overall volume and weight of the chemiluminescence detection equipment.

Abstract: The present invention provides a microfluidic device which comprises a drive module and a microfluidic platform. The drive module further comprises a rotary unit and a vibration unit for driving the microfluidic platform, and the microfluidic platform further comprises multiple microfluidic elements for performing tests. The present invention also provides a method for operating a microfluidic device. The method comprises steps using the rotary unit and steps using the vibration unit to distribute sample in a microfluidic structure.

Abstract: The present invention provides centrifuge/magnet-based analyzers and methods of operating thereof. The analyzer comprises three discs sandwiched together, in which each disc has difference functions. The top disc comprises magnetic units configured in patterns, whereas the bottom disc comprises tracks and magnetic units free to move in the tracks. The magnetic field co-generated by the top disc and the bottom disc attracts the magnetic beads in the intermediate disc to move and thus facilitates the reactions in the intermediate disc.

Abstract: Gas-based microfluidic devices and operating methods of gas-based microfluidic devices are provided. The gas-based microfluidic devices comprise a drive module and a microfluidic platform, in which the microfluidic platform further comprises a microfluidic element having an injection chamber, a process chamber, an air chamber, an overflow channel, a barrier, and at least one detection chamber. Gases in the air chamber enable solutions to move toward the direction opposite to the centrifugal force applied by the drive module. Accordingly, the operating methods utilize the gases compressed in the air chamber to move solutions to difference components in the microfluidic element.