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Recent progress on Pickering emulsions stabilized by polysaccharides-based micro/nanoparticles.

Bo Pang1, Huan Liu2, Kai Zhang1

  • 1Dept. Wood Technology and Wood-based Composites, University of Göttingen, Büsgenweg 4, Göttingen 37077, Germany.

Advances in Colloid and Interface Science
|September 17, 2021
PubMed
Summary
This summary is machine-generated.

Green micro/nanoparticles from natural polysaccharides stabilize Pickering emulsions for diverse applications. Their properties influence emulsion characteristics and functional material creation, offering sustainable solutions.

Keywords:
ParticlesPickering emulsionPolysaccharides

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Area of Science:

  • Materials Science
  • Colloid and Surface Chemistry
  • Green Chemistry

Background:

  • Pickering emulsions, stabilized by micro/nanoparticles, are gaining attention for applications in cosmetics, food, catalysis, tissue engineering, and drug delivery.
  • There is a significant demand for sustainable and "green" micro/nanoparticles to create stable Pickering emulsions.
  • Naturally derived polysaccharides like cellulose, chitin, chitosan, and starch offer biodegradability and renewability as promising green particle sources.

Purpose of the Study:

  • To review recent advancements in Pickering emulsions stabilized by polysaccharide-based micro/nanoparticles.
  • To explore the use of these emulsions as templates for constructing functional materials such as porous foams, microcapsules, and latex particles.
  • To discuss the impact of micro/nanoparticle properties on Pickering emulsion characteristics and applications, alongside current challenges and future prospects.

Main Methods:

  • Review of literature on Pickering emulsions stabilized by polysaccharide micro/nanoparticles.
  • Analysis of fabrication and post-modification methods influencing micro/nanoparticle physicochemical properties.
  • Investigation of emulsion templating for functional material synthesis.

Main Results:

  • Polysaccharide-based micro/nanoparticles effectively stabilize Pickering emulsions due to their interfacial assembly capabilities.
  • The properties of these particles significantly dictate the final emulsion characteristics and the resulting functional materials.
  • Successful application of Pickering emulsions as templates for creating porous foams, microcapsules, and latex particles.

Conclusions:

  • Polysaccharide-based Pickering emulsions represent a sustainable and versatile platform for advanced material development.
  • Tailoring micro/nanoparticle properties is crucial for optimizing emulsion performance and application scope.
  • Addressing current limitations in particle fabrication and emulsion stability will unlock broader practical applications.