Disclosed is a composite for forming a coacervate interfacial film. The composite for forming the coacervate interfacial film contains a cationic hectorite nanoplate-shaped particle structure containing a hectorite nanoplate-shaped particle and a cationic surfactant coupled to a surface of the hectorite nanoplate-shaped particle, and an anionic cellulose nanofibril containing an anionic functional group in at least a portion thereof, in which the composite may form the coacervate interfacial film at an interface of an oil phase and a water phase through electrostatic interaction between the cationic surfactant and the anionic functional group.

An industrially scalable microcapsule, fiber or film forming process and formulations suitable for use in conventional spray drying systems are provided. The one-step spray drying process utilizes formulations of a first ionic polymer, a second ionic polymer with an isoelectric point (pI.sub.2) or acid dissociation constant (pKa.sub.2) that is greater than the isoelectric point (pI.sub.1) or acid dissociation constant (pKa.sub.1) of the first ionic polymer and a volatile base or volatile acid. Volatilization of the volatile base or acid of the spray formulation changes the pH of the solution and changes the charge of the second ionic polymer initiating electrostatic interactions with the first ionic polymer through complex coacervation. Microcapsules formed by the complex coacervation process can stabilize bioactive components as well as control the release of the bioactive components for a variety of applications.

An industrially scalable microcapsule, fiber or film forming process and formulations suitable for use in conventional spray drying systems are provided. The one-step spray drying process utilizes formulations of a first ionic polymer, a second ionic polymer with an isoelectric point (pI.sub.2) or acid dissociation constant (pKa.sub.2) that is greater than the isoelectric point (pI.sub.1) or acid dissociation constant (pKa.sub.1) of the first ionic polymer and a volatile base or volatile acid. Volatilization of the volatile base or acid of the spray formulation changes the pH of the solution and changes the charge of the second ionic polymer initiating electrostatic interactions with the first ionic polymer through complex coacervation. Microcapsules formed by the complex coacervation process can stabilize bioactive components as well as control the release of the bioactive components for a variety of applications.

The subject matter of this invention relates to hydrogel compositions and, more particularly, to hydrogel compositions comprising block copolymers (BCPs) capable of self-assembly into nanoparticles for the delivery and controlled release of therapeutic cargos.

The subject matter of this invention relates to hydrogel compositions and, more particularly, to hydrogel compositions comprising block copolymers (BCPs) capable of self-assembly into nanoparticles for the delivery and controlled release of therapeutic cargos.

A method of making a population of capsules, the capsules can include a core including a benefit agent and a shell surrounding the core, wherein the shell can include a first shell component.

A method of making a population of capsules, the capsules can include a core including a benefit agent and a shell surrounding the core, wherein the shell can include a first shell component.

The present invention relates to the field of delivery systems. More specifically, the invention concerns microcapsules coated with a polysuccinimide derivative and can be used in several industries, in particular in the perfumery industry. Perfuming compositions and perfumed consumer products comprising these microcapsules are also objects of the invention.

A method of making a population of capsules, the capsules can include a core including a benefit agent and a shell surrounding the core, wherein the shell can include a first shell component.

A method of making a population of capsules, the capsules can include a core including a benefit agent and a shell surrounding the core, wherein the shell can include a first shell component.