Improved delivery of additives is provided through encapsulation. The encapsulated additives can be formed by encapsulating additives using co-ionic cross-linking, in-situ overcoating, and/or step-growth overcoating. By encapsulating additives, additives can be made heat and moisture stable and migration and/or loss of the additives within a cigarette, such as an activated carbon containing cigarette, can be reduced.

A cartridge may include a housing, a liquid supply reservoir in the housing and configured to store a pre-vapor formulation, a vaporizer, and a porous plug. The vaporizer may be in liquid communication with the liquid supply reservoir. The vaporizer may be configured to generate a vapor from heating a portion of the pre-vapor formulation. The porous plug may be connected to the housing and separated from the liquid supply reservoir. The porous plug may be permeable to the vapor. The porous plug may enclose a flavoring additive contacting a storage material. The flavoring additive may be configured to at least partially elute from the storage material or at least partially volatilize from the storage material if the vapor flows through the porous plug. An e-vaping device may include the cartridge.

Provided are smoking products and methods of preparing smoking products that include tobacco and a deflavored rosemary or a heat-treated rosemary. The deflavored and/or heat-treated rosemary may have been previously heated at a temperature and a time sufficient to reduce or remove flavorant components compared to the use of untreated rosemary. The heated rosemary may include one or more pentacyclic triterpenoid acids such as betulinic, betul-18-enoic, oleanolic, and ursolic acids.

Alternative methods for sealing pouch materials, for example, using radio frequency (RF) sealing techniques, and oral pouched products formed according to those methods are provided. Some pouched products may include an outer water-permeable pouch defining a cavity having a composition situated in the cavity, wherein the outer water-permeable pouch comprises a fleece material, the fleece material comprising a plurality of fibers and an RF sealable material. In some embodiments, methods of RF sealing pouch materials may include providing one or more fleece materials having a RF sealable material and sealing the one or more fleece materials using radio frequency energy to form a RF sealed pouched product.

A liquid composition for an electronic vaporization device, consisting essentially of an active inhalable source and a terpene source, is disclosed. A liquid composition for an electronic vaporization device is provided consisting essentially of greater than about 60 wt % cannabinoids, from about 5 to about 15 wt % terpenes and less than about 35 wt % non-cannabinoid, non-terpene cannabis phytochemicals. A method is provided for obtaining such a composition. An electronic vaping device and a cartridge for an electronic vaping device containing the composition are also disclosed.

A process for preparing coated particles of a plant material includes: (a) combining plant material particles and a protein in a liquid medium, wherein the protein adsorbs onto at least a portion of a surface of the particles to form a first layer; and (b) mixing a polysaccharide including a pectin with the liquid medium, so that the polysaccharide adsorbs onto at least a portion of a surface of the first layer to form a second layer. In addition, a palatable product comprising at least one coated particle prepared by this process is described.

An orally-enjoyable tobacco product includes a portion of smokeless tobacco comprising an active ingredient and either: (1) a collection of tobacco particles at least partially enclosed by a coating comprising a water-soluble non-crosslinked component and a substantially water-insoluble cross-linked component, or (2) a pouch comprising smokeless tobacco enclosed in a water-permeable wrapper. The active ingredient is selected from the group consisting of a mercaptan, camphor, borneol, isoborneol, bornyl acetate, isobornyl acetate, mono-bornyl succinate, mono-isobornyl succinate, mono-bornyl formate, and mono-isobornyl formate. The active ingredient is present in an amount effective to reduce or eliminate the sensory irritation arising from the smokeless tobacco.

An orally-enjoyable tobacco product includes a portion of smokeless tobacco comprising an active ingredient and either: (1) a collection of tobacco particles at least partially enclosed by a coating comprising a water-soluble non-crosslinked component and a substantially water-insoluble cross-linked component, or (2) a pouch comprising smokeless tobacco enclosed in a water-permeable wrapper. The active ingredient is selected from the group consisting of a mercaptan, camphor, borneol, isoborneol, bornyl acetate, isobornyl acetate, mono-bornyl succinate, mono-isobornyl succinate, mono-bornyl formate, and mono-isobornyl formate. The active ingredient is present in an amount effective to reduce or eliminate the sensory irritation arising from the smokeless tobacco.

A meltable smokeless tobacco composition configured for insertion into the mouth of a user is provided. The smokeless tobacco composition includes a particulate tobacco material and a lipid having a melting point of about 36° C. to about 45° C. An associated process is also provided. The process includes melting a lipid having a melting point of about 36° C. to about 45° C. to form a molten lipid composition, mixing a particulate tobacco material with the molten lipid composition to form a molten smokeless tobacco composition slurry, and cooling the molten smokeless tobacco composition slurry to form a solidified smokeless tobacco composition.

A meltable smokeless tobacco composition configured for insertion into the mouth of a user is provided. The smokeless tobacco composition includes a particulate tobacco material and a lipid having a melting point of about 36° C. to about 45° C. An associated process is also provided. The process includes melting a lipid having a melting point of about 36° C. to about 45° C. to form a molten lipid composition, mixing a particulate tobacco material with the molten lipid composition to form a molten smokeless tobacco composition slurry, and cooling the molten smokeless tobacco composition slurry to form a solidified smokeless tobacco composition.