A device for isolating a microbe or a virion includes a semiconductor substrate; and a trench formed in the semiconductor substrate and extending from a surface of the semiconductor substrate to a region within the semiconductor substrate; wherein the trench has dimensions such that the microbe or the virion is trapped within the trench.

A filter unit for a mixing apparatus includes a hydrophilic filter and a hydrophobic vent filter. The hydrophilic filter is configured to receive a fluid including a liquid and gas. The hydrophilic filter is further configured to sterilize the liquid. The hydrophobic vent filter is configured to receive the gas from the hydrophilic filter. The hydrophobic vent filter further includes a vent and a membrane configured to separate an interior of the filter unit from an exterior of the filter unit, the gas being vented from the filter unit by flowing across the membrane and out of the vent. In some embodiments, the filter unit further includes a defoaming device configured to receive gas, foam comprised the liquid containing trapped gas, and some of the liquid from the hydrophilic filter and is further configured to release at least some of the gas from the foam.

The invention relates to a multi-stage medical sewage sterilization device and method based on graphene nano technologies. The multi-stage sterilization device comprises multiple stages of graphene nano composite sterilization grids, a graphene photocatalytic sterilization tank, a graphene-modified diatom ceramic disinfection tank, an ultrasonic sterilization tank and a laser and near-infrared sterilization device. Compared with a traditional method, the present invention has a more thorough killing or blocking effects on pathogenic bacteria, parasite eggs and the like in various medical sewages. In addition, the device of the present invention can be disassembled and cleaned regularly, and has a long service life, thus the process cost is reduced.

Methods and apparatus for sterilization are presented. An exemplary embodiment includes a sterilizing cabinet assembly. The sterilizing cabinet includes a cabinet having an access port, a door connected to the cabinet, the door moveable between an open position permitting passage through the access port to an interior of the cabinet and a closed position precluding passage through the access port. The sterilizing cabinet assembly also includes at least one of the cabinet and the door having a vent port. The sterilizing cabinet has a primary filter overlying the vent port and forming a sealed interface with an adjacent portion of the one of the cabinet and the door and a secondary filter overlying at least a portion of the primary filter.

An apparatus that includes a mask is provided, the mask including one or more fixation anchoring devices, each configured to anchor to an at least one body part within a user, wherein the at least one body part includes at least a portion of one or more of an oral, nasal, pharyngeal, and a respiratory airway; one or more skin covers, each capable of covering at least a portion of the user's face, wherein one or more of the fixation anchoring devices are connected to one or more skin covers; one or more conduits, each connected to at least a portion of one of the skin covers, wherein one or more of a gas, solid, liquid, and gel are transmitted through each of the conduits; and one or more sealing pads, each connected to at least one of one of the skin coverings and one of the fixation anchoring devices.

A staple cartridge comprising staples that are lubricated before they are loaded into the staple cartridge and after they have been loaded into the staple cartridge is disclosed.

Various embodiments disclosed relate to methods and compositions for antimicrobial treatment. In various embodiments, the present invention provides a method of antimicrobial treatment. The method includes at least one of exposing at least one microbe to a magnetic field, and contacting the at least one microbe with at least one nanoparticle including iron.

Various embodiments disclosed relate to methods and compositions for antimicrobial treatment. In various embodiments, the present invention provides a method of antimicrobial treatment. The method includes at least one of exposing at least one microbe to a magnetic field, and contacting the at least one microbe with at least one nanoparticle including iron.

System for protecting and securing bags for bulk high pressure processing equipment including at least one tube provided with holes, covers for evacuating and connecting the ends of the tube or tubes, the tube or tubes being anchored to the covers, a protector for the bag adapted to lengthen the outlet path of the processed product once the depressurization of the equipment is produced, and a fitting for the protector for connecting the protector to the cover on the side from which the product in the bag comes out.

System for protecting and securing bags for bulk high pressure processing equipment including at least one tube provided with holes, covers for evacuating and connecting the ends of the tube or tubes, the tube or tubes being anchored to the covers, a protector for the bag adapted to lengthen the outlet path of the processed product once the depressurization of the equipment is produced, and a fitting for the protector for connecting the protector to the cover on the side from which the product in the bag comes out.