A formulation for an aerosol-generating system is provided, the formulation including: one or more aerosol formers; one or more metal salts; and one or more polymeric thickening agents, in which the formulation has a polymeric thickening agent content of greater than or equal to about 0.5 percent by weight, and in which the one or more metal salts include one or more metal stearates. An aerosol-generating article for the aerosol-generating system, and an aerosol-generating system, are also provided.

A formulation for an aerosol-generating system is provided, the formulation including: one or more aerosol formers; one or more metal salts; and one or more polymeric thickening agents, in which the formulation has a polymeric thickening agent content of greater than or equal to about 0.5 percent by weight, and in which the one or more metal salts include one or more metal stearates. An aerosol-generating article for the aerosol-generating system, and an aerosol-generating system, are also provided.

A tobacco composition including tobacco material and an aerosol former material. The tobacco material includes a leaf tobacco having sugars and nicotine in a weight ratio of between about 8:1 and about 20:1, wherein said leaf tobacco having sugars and nicotine in a weight ratio of between about 8:1 and about 20:1 is present in the tobacco material in an amount of at least 5% by weight of the tobacco material.

A tobacco composition including tobacco material and an aerosol former material. The tobacco material includes a leaf tobacco having sugars and nicotine in a weight ratio of between about 8:1 and about 20:1, wherein said leaf tobacco having sugars and nicotine in a weight ratio of between about 8:1 and about 20:1 is present in the tobacco material in an amount of at least 5% by weight of the tobacco material.

A vaporiser system for vaporising a composition includes a first element with at least one radiation source connected to an electrical energy source which is adapted to emit electromagnetic radiation, and a second element with at least one reservoir for holding the composition and at least one absorber. The first and the second element are reversibly and detachably connectable to each other in a non-destructive manner. A radiation conductor is arranged such that a radiation-conducting connection is formed between the radiation source and the absorber when the first element and the second element are connected to each other. The vaporiser system is adapted to vaporise the composition by the thermal energy obtained from the electromagnetic radiation by the absorber via conversion and/or by the electromagnetic radiation with increased wavelength compared to the absorbed electromagnetic radiation which is emitted by the absorber.

Various embodiments of the subject technology may provide methods and apparatus for pretreating an atomizer. The methods and apparatus for pretreating the atomizer may include applying an aerosol-forming mixture to the atomizer during a first time period. The methods and apparatus for pretreating the atomizer may further include applying a terpene mixture to the atomizer during a second time period.

Various embodiments of the subject technology may provide methods and apparatus for pretreating an atomizer. The methods and apparatus for pretreating the atomizer may include applying an aerosol-forming mixture to the atomizer during a first time period. The methods and apparatus for pretreating the atomizer may further include applying a terpene mixture to the atomizer during a second time period.

This invention relates to novel products of compressed Cannabis flower for medicinal and/or recreational use, and for methods of making such products.

A carrier, apparatus and method for making an aerosol precursor liquid suitable for aerosolized delivery by a device such as an electronic cigarette. A carrier is fluid permeable and comprises a tobacco-derived medium for carrying a functional component, the medium being configured to release the functional component into a fluid to provide an aerosol precursor liquid infused with the functional component. A method for mixing an aerosol precursor liquid for aerosolized delivery of a functional component by an aerosol delivery device comprises bringing the tobacco-derived medium carrying the functional component into contact with fluid and allowing the fluid to saturate the medium to thereby cause the medium to release the functional component into said fluid to form an aerosol precursor liquid infused with the functional component. A receptacle comprising a chamber for the carrier is provided for mixing the aerosol precursor liquid. Example functional components include nicotine and nicotine salts.

Cartridges for vaporizer devices are provided. In one exemplary embodiment, the cartridge can include a reservoir being configured to contain a liquid vaporizable material that includes at least one ionic component, an airflow tube that extends though the reservoir and defines an airflow passageway therethrough, and first and second electrodes. The airflow tube includes a wicking element that is in fluid communication with the reservoir, in which the wicking element is configured to substantially draw at least a portion of the liquid vaporizable material from the reservoir into the airflow passageway. The first and second electrodes are positioned substantially on or adjacent to opposite surfaces of the wicking element, in which the liquid vaporizable material received within the wicking element is substantially vaporized in response to generation of a potential difference between the first and second electrodes. Vaporizer devices are also provided.