The present disclosure relates to the field of media for use in microbiological applications, and particularly in relation sample collection, transport, preparation, and storage. The disclosed media inactivate pathogenic (e.g., viral or bacterial) samples to allow for safe handling and storage, while simultaneously preserving nucleic acids for assessment.

A method of inactivating an enveloped ssRNA virus, such as SARS-CoV-2. The method involves contacting the enveloped ssRNA virus with an antiviral polyelectrolyte compound and/or a conjugated aromatic compound effective to inactivate the virus. The disclosure also provides a method of reducing the period of viability of enveloped ssRNA virus, such as SARS-CoV-2, on personal protective equipment, in air, in water, and/or on surfaces that have come into contact with the virus.

The present disclosure provides a gas liquefaction separator, a gas liquefaction recovery system, and a method for separating and recovering ethylene oxide. The gas liquefaction separator includes a housing, a blocking plate, a gas baffle, and a liquid collector, the latter three being located inside the housing. The liquid collector—an outer edge of which is connected to an inner wall of the housing—is located below the gas baffle, which is located below the blocking plate. The liquid collector includes a first flow guide surface, on a bottom portion of which is disposed a first hole. The gas baffle—an upper surface of which forms a second flow guide surface and an outer edge of which has a protrusion(s)—is connected to the first flow guide surface through the protrusion(s), thereby forming a second hole between the outer edge of the gas baffle and the first flow guide surface.

The present disclosure provides a gas liquefaction separator, a gas liquefaction recovery system, and a method for separating and recovering ethylene oxide. The gas liquefaction separator includes a housing, a blocking plate, a gas baffle, and a liquid collector, the latter three being located inside the housing. The liquid collector—an outer edge of which is connected to an inner wall of the housing—is located below the gas baffle, which is located below the blocking plate. The liquid collector includes a first flow guide surface, on a bottom portion of which is disposed a first hole. The gas baffle—an upper surface of which forms a second flow guide surface and an outer edge of which has a protrusion(s)—is connected to the first flow guide surface through the protrusion(s), thereby forming a second hole between the outer edge of the gas baffle and the first flow guide surface.

Disclosed are compositions comprising Rhamnus prinoides (GESHO) extract or fragments thereof and methods of using Gesho extract for the inhibition of biofilm formation.

In a method for controlling unpleasant odors in discharge air from containers, rooms or plants in which strong smelling substances such as feces, waste or highly odorous foods are stored or processed, a fluid is introduced into the discharge air in a finely distributed form, which physically and/or chemically neutralizes the odor of the substances contained in the discharge air. The fluid is a 0.1% to 8% aqueous solution of an active substance concentrate which is 55-65 wt.-% triethylcitrate, 17.5 to 22.5 wt.-% 1,2 propanediol and 17.5 to 22 wt.- % di-propylene glycol-methylether. Alternatively, the fluid can also be a mixture of a suitable propellant gas mixture and the active substance concentrate specified above.

A sterilized-liquefied gas apparatus of the invention includes: a liquefied gas reservoir; a source-gas supplier that supplies a source gas to the liquefied gas reservoir; a cooler that cools down an inside of the liquefied gas reservoir and thereby liquefies the source gas; a supply pipe that connects the source gas supplier and the liquefied gas reservoir; a sterilization filter provided in the supply pipe; a sterilizer that sterilizes, by a sterilizing gas, a sterilization region that is located further downstream than the sterilization filter; and a sterilizing-gas remover that removes the sterilizing gas after sterilization.

Disclosed are compositions comprising Rhamnus prinoides (GESHO) extract or fragments thereof and methods of using Gesho extract for the inhibition of biofilm formation.

A method of sterilizing biological tissue such as soft mammalian tissue that can be used to make bioprosthetic devices is disclosed. The method comprises contacting biological tissue with a bioburden reduction mixture, contacting biological tissue with a tissue drying mixture, and thereafter sterilizing the dry tissue with supercritical carbon dioxide. Bioprosthetic devices made using the methods disclosed herein include bioprosthetic heart valves and surgical tissue patches.

The present invention relates to fragrances compositions. The present invention, more specifically, relates to the use of a blend of 1,3-butanediol and a glycerol ketal derivative for fragrance compositions. The present invention also discloses fragrance compositions using such a blend to provide controlled evaporation profile.