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 atomizing liquid gel with reversible phase transition characteristics includes: a sugar-based gelling agent, 0.1-3.0 wt %; an atomizing liquid, 97.0-99.9 wt %; a molecule of the sugar-based gelling agent is a sugar molecule introduced with an amide group and/or an aryl group, and the sugar molecule optionally further includes at least one hydrophobic structural part selected from —C.sub.xH.sub.y, —O—C.sub.xH.sub.y and ##STR00001##
and x>2 and y>2. The atomizing liquid gel has characteristics of thermal reversible phase transition and/or shear reversible phase transition, a temperature of gel-sol phase transition is 100° C.-248° C., and a critical shear stress of the gel-sol phase transition is 40-800 Pa. Under heating and/or oscillation, the atomizing liquid gel converts from the gel state to a sol state, and the atomizing agent fixed in the gel releases to form an inhalable aerosol. When the heating and/or oscillation are stopped, the atomizing liquid gel is quickly recovered from the sol state to the gel state, and the unatomized atomizing agent is refixed in the gel. The use of the atomizing liquid gel solves the problem of liquid leakage of the liquid nicotine of the atomizer caused by the smoke condensate after the smoking stops, the change of air pressure or the action of external force during transportation.

A capsule for delivery of a flavoring in water-pipe smoke is disclosed herein. The disclosed capsule includes a core bead of an inert material and a coating layer encapsulating the bead. The coating layer contains a flavoring, an absorbent-binder, a mist-maker, a sweetener, a thickener. The coating layer is configured to provide release of the flavoring, sweetener and of the mist-maker when heated.

Provided is a solid homogeneous composition comprising at least one cannabinoid and a carrier having at least two of: (i) a total cannabinoid concentration greater than 5%; (ii) being in comminuted particle form, wherein at least 70 wt % of said particles are of size greater than 0.3 millimeter and less than 4.2 millimeters; (iii) comprising less than 20 wt % water; (iv) said carrier comprising cellulose; (v) said carrier comprises less than 50% by weight cannabis or hemp non-cannabinoid plant material, wherein said composition is suitable for providing cannabinoid via inhalation. Further provided are products comprising the composition, methods of use and methods of preparation thereof.

The invention comprises a method and apparatus for forming a Cannabis product, comprising the steps of: combining tetrahydrocannabinol and ethanol to form a THC-alcohol compound, the THC-alcohol compound comprising less than fifty percent water by mass and subjecting the THC-alcohol compound to a shear force in excess of 100 or 50,000 sec.sup.−1. Optionally and preferably, formation of the Cannabis product results after successive steps of reducing viscosity of the tetrahydrocannabinol compound, such as by 2000+ cP and 20+ cP, or after reversing a first viscosity reducing step of 2000+ cP with a subsequent viscosity increase of 2000+ cP, such as in the formation of a THC containing drink, edible, vape pen solution, or preroll.

Embodiments described herein include a ground tobacco composition, wherein at least 90% by weight of the tobacco in the composition has a particle size in the range of about 200 μm to about 5 mm.

A tobacco rod, an aerosol-generating article including the same, and an aerosol generation device used with the aerosol-generating article are provided. The tobacco rod according to some embodiments of the present disclosure may include a first filter segment, a second filter segment, and a cavity segment which is formed by the first filter segment and the second filter segment and filled with a tobacco material. Here, at least one of the first filter segment and the second filter segment may include a paper material that is grease-resistant or water-resistant. Accordingly, a problem that vapor production is decreased due to moisture absorption from components of smoke can be addressed, and a heat-resistant tobacco rod can be manufactured.

A substrate for a reservoir having an aerosol former stored therein, the substrate comprising: a property modifying agent disposed on the substrate, wherein the substrate is configured to be received in the reservoir to contact the aerosol former, so as to facilitate a release of the property modifying agent from the substrate to the aerosol former, and wherein the substrate is insoluble in the aerosol former.

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.

This document provides methods and systems for stabilizing nicotine and incorporating nicotine into one or more oral products. This document also provides oral products. Nicotine can be stabilized by mixing liquid nicotine with cellulosic fiber such that the liquid nicotine absorbs into pores of the cellulosic fiber to form a cellulosic fiber-nicotine mixture. In some cases, a cellulosic fiber-nicotine mixture can be combined with one or more binders and molded into an oral product.