A microwave-plasma disinfector (Origreen) with a microwave source with multi-feed points and variable output power. It also has a low-temperature atmospheric-pressure plasma source. This versatile microwave-plasma disinfector has the ability to decontaminate heat-sensitive materials by subjecting them to a microwave-assisted plasma with controlled microwave power. This dual-action, at suitable non-destructive microwave and plasma doses, sterilizes the equipment at a lower temperature with higher effectiveness than either plasma or microwaves alone

An irradiation system is provided which comprises a cabinet housing one or more X-ray tubes providing an irradiation source for a biomass contained within a cylindrical container arranged on a rotating device. The X-ray tubes generate directional X-ray beams and are provided in ultra-close proximity to the container, and the X-ray tubes can be configured to traverse the container. The rotational movement and traversal during the irradiation process ensure a more even irradiation of the entire biomass in the container.

Method for increasing efficiency of a pathogen inactivation via enhancing UVC light absorption at such pathogen by multiple diffuse scattering of the light at a wall defining a substantially closed volume, thereby increasing a number of angles at which the pathogen is being irradiate as compared with a direct irradiation of the pathogen with a beam of such light.

A vehicle surface disinfectant system includes a lighting module having at least one ultra-violet (UV) light element and at least one visible light element. The UV light element(s) and the visible light element(s) may be at least partially separately electrically actuated for the visible light element(s) to emit visible light while the UV light element(s) is off. The lighting module may be inserted into a lighting receptacle in an interior of a vehicle.

An electronic sanitizing device includes a germicidal light source and one or both of a red light source or a near infrared light source. The germicidal light source is configured to output germicidal light with a peak wavelength of 250 to 270 nanometers. The red light source is configured to output red light with a peak wavelength of 620 to 700 nanometers. The near infrared light source is configured to output near infrared light with a peak wavelength of 800 to 1200 nanometers.

A UV sanitizing device including a sanitizing interface having a top surface arranged to support a device positioned above the sanitizing interface where the sanitizing interface includes a translucent material arranged to allow UV light to pass through An adjustable UV emission interface, positioned adjacent to the sanitizing interface, arranged to adjustably conform to the shape of a device facing the sanitizing interface, and arranged to emit the UV light toward the sanitizing interface in the shape of the device. The adjustable UV emission interface includes UV emission interface cells such that, when a first portion of the UV emission interface cells is activated and a second portion of the UV emission interface cells is deactivated, the UV emission interface conforms to the shape of the device. Each cell of UV emission interface cells includes a sensor arranged to detect a portion of the device facing the sanitizing interface.

A decontamination assembly, for pharmaceutical applications includes at least one chamber to be decontaminated (4) having a decontamination liquid storage tank (36) by which several atomizers (A, B, C. D) disposed in the chamber to be decontaminated (4) for producing a decontaminant aerosol can be supplied with decontamination liquid using valves (27) which can be controlled by electronic control, the atomizers (A, B, C, D) being in fluid communication with a ring conduit (32) having an inlet (33) and a separate outlet (34) by the valves (27), decontamination liquid from the decontamination liquid storage tank (36) being conveyable into the inlet of the ring conduit by a pump (35) and decontamination liquid flowing out of the outlet of the ring conduit back into the decontamination liquid storage tank (36), and a pressure adjustment mechanism (37) for keeping the pressure in the ring conduit (32) at a predefined liquid pressure range assigned to the ring conduit (32). A measuring mechanism (40) for determining a total volume of decontamination liquid dispensed to the atomizers (A, B, C, D) during a decontamination cycle includes a weighing mechanism (41) for determining a decontamination liquid volume in the decontamination liquid storage tank (36).

Provided is a skin care device including a head part brought into contact with skin of a user, a battery configured to supply power for operation of the head part, a body part having a fastening portion provided at one end to which the head part is fastened and provided with the battery therein, and a cap assembly detachably attached to one end of the body part and forming an accommodation space configured to accommodate the head part, wherein the cap assembly includes a sterilization module disposed to irradiate ultraviolet light toward the head part when the cap assembly accommodates the head part.

A method for producing a sterilized oxygen-absorbing multilayer body is provided. The method may include: irradiating with radiation an oxygen-absorbing multilayer body comprising at least an oxygen-absorbing layer containing a transition metal catalyst and a thermoplastic resin (a) having a tetralin ring as a structural unit and a layer containing a thermoplastic resin (b); and heating the oxygen-absorbing multilayer body which has been irradiated with radiation in the sterilizing step at a temperature of the glass transition temperature of the thermoplastic resin (a) minus 20° C. or more and lower than the glass transition temperature of the thermoplastic resin (a) for 50 hours or more.

The disclosure relates to a flexible active species generator comprising: a first electrode of a conductive metal thin film; a second electrode of a ground electrode; a flexible dielectric layer of an insulator formed between the first electrode and the second electrode; and a plasma resistant functional layer formed between the dielectric layer and the second electrode, wherein the first electrode and the second electrode are electrically connected to an external power supply to generate an atmospheric pressure plasma to generate active species. The flexible active species generator has a plasma resistant function to prevent deformation and decomposition of an insulator caused by the plasma as well as an active species generating function from atmospheric pressure plasma, and has durability and safety, which is thus applicable to articles, foods, garments and human body in various forms.