The present disclosure provides a substrate which includes microcrystalline cellulose, a binder, an aerosol forming material, and optionally an active ingredient, a flavorant, or both an active ingredient and a flavorant. The final form of the substrate can be configured for use in aerosol generating components for aerosol delivery devices. Further provided are aerosol generating components and aerosol delivery devices including the substrate. Such devices utilize electrically generated heat or combustible ignition sources to heat the substrate, providing an inhalable substance in the form of an aerosol.

The present disclosure provides a substrate which includes microcrystalline cellulose, a binder, an aerosol forming material, and optionally an active ingredient, a flavorant, or both an active ingredient and a flavorant. The final form of the substrate can be configured for use in aerosol generating components for aerosol delivery devices. Further provided are aerosol generating components and aerosol delivery devices including the substrate. Such devices utilize electrically generated heat or combustible ignition sources to heat the substrate, providing an inhalable substance in the form of an aerosol.

A method of reducing the amount of matrix-bound NNK in cured tobacco plant material is provided comprising reducing the amount of lignin in the cured tobacco plant material. A further method of reducing the formation of matrix-bound NNK during the curing of tobacco plant material is described comprising reducing the amount of lignin therein prior to curing.

A method of reducing the amount of matrix-bound NNK in cured tobacco plant material is provided comprising reducing the amount of lignin in the cured tobacco plant material. A further method of reducing the formation of matrix-bound NNK during the curing of tobacco plant material is described comprising reducing the amount of lignin therein prior to curing.

The present invention relates to tobacco products from plants comprising mutated berberine bridge enzyme-like nucleic acids and the recessive nic1 and/or nic2 alleles and methods of making the same.

The present invention relates to tobacco products from plants comprising mutated berberine bridge enzyme-like nucleic acids and the recessive nic1 and/or nic2 alleles and methods of making the same.

An inductively heatable consumable for aerosol generation includes an aerosol forming substrate in the form of particles and a susceptor in the form of a plurality of particles, wherein the susceptor is a combination of an aerosol forming substrate and a susceptor for obtaining a rigid susceptor, wherein the rigid aerosol forming substrate layer has a rigidity greater than the rigidity of the susceptor layer.

A non-tobacco oral nicotine pouch composition is provided, including water in an amount of at least 15% by weight of the pouch composition; nicotine; and at least one sugar alcohol, the pouch composition being free of humectants consisting of alginate, propylene glycol, hydroxypropyl cellulose, and glycerol. An oral pouched nicotine product is also provided, including a saliva-permeable pouch and the non-tobacco oral nicotine pouch composition enclosed in the saliva-permeable pouch.

An aerosol-generating article with improved cooling performance and flavor persistence and a method of producing the same are provided. The aerosol-generating article according to some embodiments of the present disclosure may include an aerosol-forming substrate part and a cooling part disposed downstream of the aerosol-forming substrate part and configured to cool an aerosol formed in the aerosol-forming substrate part, and a sheet-type material may be disposed on an inner wall of the cooling part. Here, the sheet-type material is a material including a flavoring and may serve as a cooling material as well as a flavor expressing material to improve cooling performance and flavor persistence of the aerosol-generating article.

An aerosol-generating article with improved cooling performance and flavor persistence and a method of producing the same are provided. The aerosol-generating article according to some embodiments of the present disclosure may include an aerosol-forming substrate part and a cooling part disposed downstream of the aerosol-forming substrate part and configured to cool an aerosol formed in the aerosol-forming substrate part, and a sheet-type material may be disposed on an inner wall of the cooling part. Here, the sheet-type material is a material including a flavoring and may serve as a cooling material as well as a flavor expressing material to improve cooling performance and flavor persistence of the aerosol-generating article.