The present invention relates to hydrogel beads having liquid crystalline structured phase. Process for preparing crystalline hydrogel beads is also an object of the invention. Perfuming compositions and consumer products comprising or consisting of said crystalline beads, in particular perfumed consumer products in the form of a personal care products or flavoured products, are also part of the invention.

The present invention relates to hydrogel beads having liquid crystalline structured phase. Process for preparing crystalline hydrogel beads is also an object of the invention. Perfuming compositions and consumer products comprising or consisting of said crystalline beads, in particular perfumed consumer products in the form of a personal care products or flavoured products, are also part of the invention.

Described herein is an octenyl succinic acid modified starch (OSA modified starch) degraded by at least one enzyme capable of cleaving 1,4-linkages of a starch molecule from the non-reducing ends to produce short chain saccharides, wherein the content of non-covalently bound, free octenyl succinic acid in the OSA modified starch is less than about 0.50% by weight, based on total weight of the modified starch, and wherein content of alpha-1,6-glycosidic linkages is higher than 12%, a method of preparing same, and an encapsulation agent comprising same as well as a method of encapsulating an active agent with said encapsulation agent.

Described herein is an octenyl succinic acid modified starch (OSA modified starch) degraded by at least one enzyme capable of cleaving 1,4-linkages of a starch molecule from the non-reducing ends to produce short chain saccharides, wherein the content of non-covalently bound, free octenyl succinic acid in the OSA modified starch is less than about 0.50% by weight, based on total weight of the modified starch, and wherein content of alpha-1,6-glycosidic linkages is higher than 12%, a method of preparing same, and an encapsulation agent comprising same as well as a method of encapsulating an active agent with said encapsulation agent.

Provided is an apparatus for a mass production of microspheres and a multichannel forming device incorporatable therein. The apparatus includes a multi-channel microsphere forming unit, a first source material reservoir containing the first source material and in fluid communication with the plurality of first microchannels, a second source material reservoir containing the second source material and in fluid communication with the plurality of second microchannels, a flow control unit configured to supply a first gas to the first source material reservoir at a first source material flow rate and to supply a second gas to a second source material reservoir at a second source material flow rate and a product reservoir for accommodating the microspheres formed from the multi-channel forming unit.

Provided is an apparatus for a mass production of microspheres and a multichannel forming device incorporatable therein. The apparatus includes a multi-channel microsphere forming unit, a first source material reservoir containing the first source material and in fluid communication with the plurality of first microchannels, a second source material reservoir containing the second source material and in fluid communication with the plurality of second microchannels, a flow control unit configured to supply a first gas to the first source material reservoir at a first source material flow rate and to supply a second gas to a second source material reservoir at a second source material flow rate and a product reservoir for accommodating the microspheres formed from the multi-channel forming unit.

An inkjet ink includes a) an aqueous medium; and b) capsules composed of a polymeric shell surrounding a core; wherein the capsules are dispersed in the aqueous medium using a dispersing group covalently bonded to the polymeric shell; wherein the core contains a photoinitiator and one or more chemical reactants capable of forming a reaction product upon application of UV light; wherein the capsules have an average particle size of no more than 4 m as determined by dynamic laser diffraction; and wherein the photoinitiator is a diffusion hindered photoinitiator selected from the group consisting of multifunctional photoinitiators, oligomeric photoinitiators, polymeric photoinitiators and polymerizable photoinitiators.

An inkjet ink includes a) an aqueous medium; and b) capsules composed of a polymeric shell surrounding a core; wherein the capsules are dispersed in the aqueous medium using a dispersing group covalently bonded to the polymeric shell; wherein the core contains a photoinitiator and one or more chemical reactants capable of forming a reaction product upon application of UV light; wherein the capsules have an average particle size of no more than 4 m as determined by dynamic laser diffraction; and wherein the photoinitiator is a diffusion hindered photoinitiator selected from the group consisting of multifunctional photoinitiators, oligomeric photoinitiators, polymeric photoinitiators and polymerizable photoinitiators.

A method of synthesizing a graphene-based material comprises exposing graphene-encapsulated metal nanoparticles, each nanoparticle comprising a graphene shell surrounding a metal core, to a cracking and welding gas composition under conditions sufficient to crack graphene shells and to reconstruct cracked graphene shells to form the graphene-based material.

A method of synthesizing a graphene-based material comprises exposing graphene-encapsulated metal nanoparticles, each nanoparticle comprising a graphene shell surrounding a metal core, to a cracking and welding gas composition under conditions sufficient to crack graphene shells and to reconstruct cracked graphene shells to form the graphene-based material.