The presence of pathogens in fresh food is the cause of food loss and the spread of diseases and death in humans. Packaging disclosed herein includes a semi-rigid or flexible package for fresh fruits and vegetables, which incorporates an antipathogenic barrier using carbon allotrope ink and air filters. An embodiment of a packaging container is formed of a body and a paperboard lid, the body having a geometric pattern printed in its interior with antipathogenic ink. The container body includes a bottom with a hollow window, covered by two or more layers of microperforated polymeric films that have an air filtration function. A version of a semi-rigid cellulose lid incorporates a hollow window, covered by two or more microperforated polymeric films. Further disclosed is a portion of the container made of cellulose material and printed with antipathogenic ink.

The presence of pathogens in fresh food is the cause of food loss and the spread of diseases and death in humans. Packaging disclosed herein includes a semi-rigid or flexible package for fresh fruits and vegetables, which incorporates an antipathogenic barrier using carbon allotrope ink and air filters. An embodiment of a packaging container is formed of a body and a paperboard lid, the body having a geometric pattern printed in its interior with antipathogenic ink. The container body includes a bottom with a hollow window, covered by two or more layers of microperforated polymeric films that have an air filtration function. A version of a semi-rigid cellulose lid incorporates a hollow window, covered by two or more microperforated polymeric films. Further disclosed is a portion of the container made of cellulose material and printed with antipathogenic ink.

The present invention relates to a gas barrier film for a paper or paperboard based packaging material, said gas barrier film comprising: a microfibrillated cellulose layer (MFC layer), at least one surface of which has been metallized; and a polymer dispersion coating layer disposed on at least one surface of the MFC layer. The present invention further relates to a paper or paperboard based packaging material, containers and carton blanks comprising the gas barrier film, and to a method for manufacturing the gas barrier film.

The present invention relates to a gas barrier film for a paper or paperboard based packaging material, said gas barrier film comprising: a microfibrillated cellulose layer (MFC layer), at least one surface of which has been metallized; and a polymer dispersion coating layer disposed on at least one surface of the MFC layer. The present invention further relates to a paper or paperboard based packaging material, containers and carton blanks comprising the gas barrier film, and to a method for manufacturing the gas barrier film.

A packaging bag has a bag body formed from a flat web and has a first front wall and a second front wall as well as a stand-up bottom formed in a bottom section by folding and gluing the front walls. The flat web has a varnish coating on an outside of the bag body, wherein the first front wall has an adhesive region free of the varnish coating in the bottom section of the bag body.

The invention relates to a greaseproof and waterproof packaging item comprising a composite material, the material comprising a fibre substrate and a cross-linked naturally derived polysaccharide.

The invention relates to a greaseproof and waterproof packaging item comprising a composite material, the material comprising a fibre substrate and a cross-linked naturally derived polysaccharide.

The present invention relates to a biaxially oriented polyethylene foil (BOPE) comprising layers (A) to (D), wherein layers (B) to (D) contain biaxially oriented polyethylene and layer (A) contains polyurethane and nanoparticles and has a layer thickness of 25 to 300 nm, layer (B) comprises polymers having functional groups which are capable of forming covalent bonds with polyurethane and are directly connected to layer (A), layer (C) has at least a layer thickness of 50% of the total thickness of the foil and layer (D) represents an outer layer of the foil, which contains antiblocking agents. The invention further relates to methods for producing such foils.

The present invention relates to a biaxially oriented polyethylene foil (BOPE) comprising layers (A) to (D), wherein layers (B) to (D) contain biaxially oriented polyethylene and layer (A) contains polyurethane and nanoparticles and has a layer thickness of 25 to 300 nm, layer (B) comprises polymers having functional groups which are capable of forming covalent bonds with polyurethane and are directly connected to layer (A), layer (C) has at least a layer thickness of 50% of the total thickness of the foil and layer (D) represents an outer layer of the foil, which contains antiblocking agents. The invention further relates to methods for producing such foils.

Implementations of glove dispensers may include a sealed first end and a sealed second end opposite the sealed first end, a first plurality of openings extending through the first sealed end, a second plurality of openings extending through the second sealed end, and a first opening extending through a sidewall of the flexible bag. Implementations of glove dispensers may also include a first plurality of gloves included within the flexible bag. A cuff of a glove of the first plurality of gloves may be exposed through the first opening. The first plurality openings and the second plurality of openings may be configured to couple to a dispenser rack. The glove dispenser may be configured to stretch between the sealed first end and the sealed second end when coupled to the dispenser rack.