A method for collecting and testing particulates from aircraft air is disclosed. The method includes capturing particulates in at least one of an outlet flow path or a recirculation flow path with a collector over a period of time, removing the collector from at least one of the outlet flow path or the recirculation flow path for testing, concentrating the collected sample, conducting a test on at least one particulate captured in the collector, relaying a result of the test to a central data center to store the results, and identifying a previously non-described emerging pathogens within the results.

A system for monitoring aircraft air including a vessel having an inlet, a conical main body for extracting particles from the air coating an inner surface on the conical main body, and an outlet, wherein the outlet is to be positioned within at least one of an outlet flow path or a recirculation flow path of an aircraft, and at least one of an outflow valve positioned in the outlet flow path downstream from the collector or a HEPA filter positioned in the recirculation flow path downstream from the collector.

A system for monitoring aircraft air including a collector for collecting particulate samples positioned within at least one of an outlet flow path or a recirculation flow path of an environmental control system of an aircraft, wherein the collector is accessible to a user within the cabin of the aircraft.

A system for collecting a biological sample from a passenger cabin includes a collector for collecting particulate samples positioned within at least one of a passenger cabin or a cabin air outflow flow path. A method for collecting particulates from cabin air includes capturing particulates in at least one of a passenger cabin or a cabin air outflow flow path with a collector for a period of time. The method includes removing the collector from at least one of the passenger cabin or air outflow flow path for testing. The method includes placing a clean collector into at least one of the passenger cabin or a cabin air outflow flow path for use during another period of time.

A method for collecting an aircraft cabin representative biological sample from an aircraft HEPA (high efficiency particulate air) filter including collecting a used HEPA filter after flight, transferring the HEPA filter to a remote location, processing the HEPA filter in order to remove an air sample, and concentrating the collected sample to be used on a pathogen identifying tester.

A detection apparatus and a detection method. The detection apparatus includes: a main body, a detection assembly, and a detection object receiving portion. The detection assembly includes: a signal transmitter, configured to transmit detection signals; a signal receiver, configured to receive at least part of the detection signals transmitted by the signal transmitter; and a detection connection portion, connected to the signal transmitter and the signal receiver and causing the signal transmitter and the signal receiver to be spaced from each other by the detection connection portion. The detection object receiving portion is configured to receive a detection object. The detection object receiving portion and the detection assembly are relatively movably arranged on the main body so as to allow the detection object received by the detection object receiving portion to be located in a transmission path of the detection signals between the signal transmitter and the signal receiver.

A device for transferring liquids and liquid samples in certain quantities includes a housing, a pressing unit, a liquid extraction assembly, and a connecting member. The pressing unit includes an extrusion portion. The housing includes a first sidewall and a second top wall. The first sidewall and the second top wall cooperatively define a receiving cavity. The pressing unit is received in the receiving cavity. The liquid extraction assembly includes a liquid extraction pipe. The liquid extraction assembly is detachably connected to the housing through the connecting member. The pressing unit can move back and forth along the central axis of the receiving cavity, so as to move the extrusion portion back and forth relative to the liquid extraction pipe. The liquid extraction pipe is deformed by the extrusion portion to take up or release liquid in precise quantities.

A kit includes reagents and materials for students to make gRNA and Target DNA, cut Target DNA with Cas9 guided by the gRNA, and visualize the uncut and cut the Target DNA on an agarose gel. The kit may include a shipping box that is able to withstand transport of the reagents and materials, reagents and materials needed to perform the desired curriculum, and the curriculum necessary for using the kit. Additional curriculum may be included with extension activities as desired.

The invention relates to a two-axis rotator for producing a rotation about two orthogonal spatial axes, and to a handling device comprising a two-axis rotator of this kind. The two-axis rotator for producing a rotation about two mutually orthogonal rotational axes comprises a main body, a first rotor and a second rotor, wherein the first rotor is mounted on or in the main body so as to be able to rotate about a first rotational axis, and the second rotor is mounted on or in the first rotor so as to be able to rotate about a second rotational axis, and wherein the first rotor has a first drive and the second rotor has a second drive, and the first drive and the second drive can be driven independently of one another.

Methods of separating magnetic particles from a fluid include introducing a fluid mixture that includes a liquid media, a biological component, and magnetic particles into an internal compartment of a container through an inlet, allowing at least a portion of the mixture to travel around a partition formed within the internal compartment and then exit the internal compartment through an outlet on the opposite side of the partition, and applying a magnetic field to the mixture in the internal compartment so that the magnetic particles are retained within the container or internal compartment thereof by the magnetic field. The partition is formed by permanently or reversibly securing upper and lower container walls together, such as by welding or pressing, between the inlet and the outlet such that the media and biological component must flow around the partition and through the magnetic field to exit the internal compartment through the outlet.