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Copolymer-stabilized emulsions

a technology of copolymer and emulsion, applied in the field of droplet structure and emulsion, can solve the problems of significantly more difficult to coordinate the flow, higher topological complexity, and fractionation necessarily slowing down the process

Inactive Publication Date: 2013-03-14
RGT UNIV OF CALIFORNIA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The patent describes an emulsion that has small droplets of liquid dispersed in a continuous liquid. These droplets are stabilized by a layer of special polymers called block copolymers. The droplets are made using a method that involves mixing two liquids that don't mix well together and adding polymers to prevent them from coalescing. The emulsion has a unique structure and properties that make it useful in a variety of applications.

Problems solved by technology

Beyond simple emulsions, higher levels of topological complexity exist.
However, it is significantly more difficult to coordinate the flows so that double emulsions containing a specific number of multiple inner droplets are formed at the desired internal volume fraction.
If a high level of monodispersity is desired, then the fractionation necessarily slows down the process.
However, the ability of block copolymers to assemble into hierarchically structured materials or distinct tertiary structures, similar to those found in biological systems (e.g. proteins), has been limited by the random coiled nature of most common polymers as well as the limited functionality of the polymer domains.
The main limitation in utilizing these strategies is that the synthetic chemistry necessary for preparation of functional, multicomponent block copolymers is a major hindrance due to incompatibilities of different monomers with a given polymerization method (A. J. Link, M. L. Mock, and D. A. Tirrell, Curr Opin Biotech 14, 603 (2003)).
Furthermore, since most common synthetic polymers lack the intricate complexity found in biopolymers (e.g. secondary structure, complex functionality and stereochemistry), they may never be able to faithfully mimic the behavior of self-assembled biological macromolecules.
Addition of serum, which contains anionic proteins, results in vesicle disruption, most likely due to polyion complexation between the serum proteins and the oppositely charged polylysine chains.
This process allows control of both inner and outer droplet volumes if the emulsions in both stages are monodisperse, yet this process has not been used to form stable nanoscale droplets (i.e. having both inner and outer droplet diameters that are nanoscale).
Moreover, this approach requires a difficult search for surfactant combinations that can co-exist without destabilizing either inner or outer droplet interfaces (Ficheux, M. F., Bonakdar, L., Leal-Calderon, F.

Method used

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  • Copolymer-stabilized emulsions
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Embodiment Construction

[0036]Emulsions are dispersions of droplets of one liquid phase material in another immiscible liquid phase material that can be formed, typically through flow-induced rupturing of bigger droplets into smaller ones. A surfactant, which consists of amphiphilic molecules which are surface-active, which is soluble in at least one liquid phase, and which prefers adsorbing on the interfaces between the two immiscible liquids, is usually added in order to prevent subsequent droplet coalescence (i.e. fusion) and to keep the size distribution of the droplets from changing over time. Simple emulsions are generally classified as oil-in-water (i.e. O / W or “direct”) and water-in-oil (i.e. W / O or “inverse”), and these different morphologies can be obtained by using an appropriate surfactant that provides adequate stability and can sometimes be influenced through the order of addition of the components while shearing.

[0037]The following prefixes: racemic-, r, r-, and rac-, and similar common pref...

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Abstract

An emulsion includes a substantially continuous liquid medium, and a plurality of droplet structures dispersed within the substantially continuous liquid medium. Each droplet structure of the plurality of droplet structures includes an outer droplet of a first liquid having an outer surface; an inner droplet of a second liquid within the first droplet, the second liquid being immiscible in the first liquid, wherein the inner and outer droplets have a boundary surface region therebetween; an outer layer of block copolymers disposed on the outer surface of the outer droplet; and an inner layer of block copolymers disposed on the boundary surface region between the outer and the inner droplets.

Description

CROSS-REFERENCE TO RELATED APPLICATION[0001]This application claims priority to U.S. Provisional Application No. 60 / 935,605 filed Aug. 21, 2007, the entire contents of which are hereby incorporated by reference.[0002]This invention was made using U.S. Government support under Grant No. CHE-0415275, awarded by the National Science Foundation. The U.S. Government has certain rights in this invention.BACKGROUND[0003]1. Field of Invention[0004]The present invention relates to droplet structures, emulsions of droplet structures and methods of producing the droplet structures and emulsions; and more particularly to droplet structures, emulsions of droplet structures and methods of producing the droplet structures that are stabilized with block copolymers.[0005]2. Discussion of Related Art[0006]Simple emulsions are dispersions of droplets of one liquid in another immiscible liquid; the droplets are typically formed by applied shear and stabilized against subsequent coalescence by a surfact...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61K51/00A61K9/113A01N25/04C09K23/00
CPCA61K9/113A61K47/183A61K47/34B01F17/005B82Y5/00Y10S977/773Y10T428/2984Y10S977/906Y10S977/927Y10S977/928Y10S977/929Y10S977/93Y10S977/795A61K47/20Y02A50/30C09K23/30
Inventor MASON, THOMAS G.DEMING, TIMOTHY J.HANSON, JARROD A.CHANG, CONNIE B.GRAVES, SARA M.
Owner RGT UNIV OF CALIFORNIA