Encapsulated materials

a technology of encapsulated materials and capsules, applied in the field of capsule making, can solve the problems of physical force affecting capsules, and it is not desired that the core is released from the shell prematurely, so as to reduce the effect of leaching and/or slow down the effect of fragrance materials

Inactive Publication Date: 2005-05-26
INTERNATIONAL FLAVORS & FRAGRANCES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008] It has been discovered that proper capsule core design can reduce and / or slow the effects of leaching of fragrance materials from the core.

Problems solved by technology

Alternatively the capsules can be compromised by physical forces, such as crushing, or other methods that compromise the integrity of the capsule.
It is obviously not desired that the core be released from the shell prematurely.

Method used

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Examples

Experimental program
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Effect test

example 1

[0150] Cationic polymer-coated capsules were prepared by mixing uncoated fragrance-containing capsules with the cationic polymeric deposition aid at the desired level. This mixing can be done during the manufacturing process of the capsules or by post-addition of the cationic deposition aid as a solution. The uncoated capsules were prepared by interfacial polymerization of fragrance droplets. To make the capsule slurry, a copolymer of acrylamide and acrylic acid was first dispersed in water together with a methylated melamine-formaldehyde resin. These two components were allowed to react under acidic conditions. Fragrance was then added into the solution and droplets of the desired size were achieved by high shear homogenization. Curing of the polymeric layer around the fragrance droplets was achieved by increasing the temperature to 50-85° C.

example 2

[0151] A slurry of capsules having shell walls composed of an acrylamide-acrylic acid co-polymer cross-linked with melamine-formaldehyde resin as described in Example 1 was mixed with a concentrated fabric conditioner. The fabric conditioner was commercially obtained and did not contain fragrance. The capsule slurry contained approximately 25 weight % fragrance, and approximately 10% shell-wall material. The level of fragrance added to the product was 0.8%, and leaching was followed by headspace measurement via Solid Phase Microextraction (SPME).

[0152] As can be seen from FIG. 3, after storage at ambient temperature for six weeks, the release of fragrance materials is inversely related to log P.

[0153] The fragrance used in Examples 1 and 2 above was comprised of equal weight percents of the following fragrance materials:

[0154] Ethyl-2-methyl valerate (manzanate); limonene, DH myrcenol, phenyl ethyl alcohol, benzyl acetate, geraniol, dimethyl benzyl carbonate acetate, methyl nonyl...

example 3

[0155] A slurry of capsules having shell walls composed of an acrylamide-acrylic acid co-polymer cross-linked with melamine-formaldehyde resin was mixed with a commercially obtained concentrated fabric conditioner (DOWNY, Procter & Gamble). The capsules slurry contained fragrance levels as noted below, and approximately 10% shell-wall material. The level of fragrance added to the product was 0.8%, and leaching was followed by headspace measurement via Solid Phase Microextraction (SPME). The fragrance used consisted of either Lilial (logP=4.4, slurry level=14%) or Cyclacet (logP=3.3, slurry level=24%).

[0156] DOWNY (Procter & Gamble, Cincinnati, Ohio) fragrance fabric softener was purchased form a local grocery store and contained approximately 25% cationic surfactants as the active. As can be seen from the table below, after storage at ambient temperature, for up to five weeks at ambient temperature, the released level of Lilial was low and relatively constant, while that of Cyclace...

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Abstract

The present invention is directed to encapsulated fragrance materials. The fragrance materials are comprised of high ClogP materials or high ClogP fragrance materials along with high logP solvent materials. The encapsulated fragrance and solvent materials can then be further coated with a second coating, preferably a cationic coating.

Description

FIELD OF THE INVENTION [0001] The present invention is directed to a method for making capsules, and novel capsules containing fragrance materials. The capsules are well suited for use in personal care applications, laundry products and perfume and fragrance products. BACKGROUND OF THE INVENTION [0002] Encapsulation of fragrance materials is well known in the art. Encapsulation provides advantages to the fragrance product including the protection of the fragrance in the capsule core by a shell until the fragrance is intended to be delivered. In particular, capsules are often designed to deliver their contents at a desired time by the capsule shell being compromised at the desired time. [0003] The capsule shell can be compromised by various factors such as temperature so that the contents are delivered when the capsule begins to melt. Alternatively the capsules can be compromised by physical forces, such as crushing, or other methods that compromise the integrity of the capsule. Addi...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61K8/04A61K8/11A61K8/81A61Q5/12A61Q13/00B01J13/20C11D3/18C11D3/20C11D3/37C11D3/43C11D3/50C11D7/50C11D17/00
CPCA61K8/11Y10T428/2984A61Q5/12A61Q13/00B01J13/203C11D3/18C11D3/184C11D3/2093C11D3/3703C11D3/373C11D3/3734C11D3/43C11D3/505C11D7/50C11D7/5004C11D7/5022C11D7/5027C11D17/0039A61K2800/56Y10T428/2985A61K8/8158
Inventor POPPLEWELL, LEWIS MICHAELBRAIN, JOSEPHPLUYTER, JOHAN GERWIN LODEWIJKZHEN, YUEQIANLEE, KAIPING DANIEL
Owner INTERNATIONAL FLAVORS & FRAGRANCES
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