Magnetically controllable Pickering emulsion prepared by a reduced graphene oxide-iron oxide composite

Lin, Kun‐Yi Andrew; Yang, Hongta; Petit, Camille; Lee, Wei-Der

doi:10.1016/j.jcis.2014.10.015

Cited by 69 publications

(36 citation statements)

References 78 publications

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“…Traditional and mostly used Pickering emulsifiers are spherical like, however, more other shapes, including flake (Kim et al, 2013; Lin et al, 2015; Erdenedelger et al, 2016), cylinder (He et al, 2007), ellipsoid (Madivala et al, 2009), wire (Patra et al, 2010; Yan et al, 2015), dumbbell (Tu et al, 2013) and so on, are in heated research in recent 20 years. Works that focused on the mechanism of stabilizing Pickering emulsions by non-spherical solid particles have been published, which demonstrated that this stabilizing effect not only relates to steric effect that has been discussed for spherical particles, but also may results from capillary forces on the oil–water interface (Bresme and Oettel, 2007; Madivala et al, 2009).…”

Section: Morphologymentioning

confidence: 99%

“…One recent review discussed in detail about Pickering emulsion polymerization with GO, clay, and SiO 2 stabilizers for electrorheological (ER) materials, together with Fe 2 O 3 and Fe 3 O 4 particles for magnetorheological (MR) materials, as well as their electric/magnetic-responsive behaviors (Piao et al, 2015). Among many studies referring to this respect, a work loading iron oxide nanoparticles onto RGO formed magnetically responsive Pickering emulsion, of which droplets could move by attraction of a permanent magnet without damage or contortion (Lin et al, 2015). This motion was confirmed to be related to the size of droplets, and will have promising usage for drug-transportation to certain locations by an external magnetic field.…”

Section: Biomedical Applicationsmentioning

confidence: 99%

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An Overview of Pickering Emulsions: Solid-Particle Materials, Classification, Morphology, and Applications

et al. 2017

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Pickering emulsion, a kind of emulsion stabilized only by solid particles locating at oil–water interface, has been discovered a century ago, while being extensively studied in recent decades. Substituting solid particles for traditional surfactants, Pickering emulsions are more stable against coalescence and can obtain many useful properties. Besides, they are more biocompatible when solid particles employed are relatively safe in vivo. Pickering emulsions can be applied in a wide range of fields, such as biomedicine, food, fine chemical synthesis, cosmetics, and so on, by properly tuning types and properties of solid emulsifiers. In this article, we give an overview of Pickering emulsions, focusing on some kinds of solid particles commonly serving as emulsifiers, three main types of products from Pickering emulsions, morphology of solid particles and as-prepared materials, as well as applications in different fields.

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Section: Morphologymentioning

confidence: 99%

Section: Biomedical Applicationsmentioning

confidence: 99%

An Overview of Pickering Emulsions: Solid-Particle Materials, Classification, Morphology, and Applications

et al. 2017

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“…MWCNTs decorated with MNPs are modified by polyaniline to remove methyl orange and Congo red [243]. Magnetically responsive RGO is used to prepare Pickering emulsions especially for water-in-oil emulsions that is used to remove Nile red dye from dodecane [244]. Fe3O4@3-aminophenol-formaldehyde (Fe3O4@APF) core-shell resin polymer magnetic nanocomposites are excellent adsorbent for the removal of methyl blue [245].…”

Section: Adsorptive and Separative Removal Of Organic Contaminantsmentioning

confidence: 99%

Environmental implications and applications of engineered nanoscale magnetite and its hybrid nanocomposites: A review of recent literature

2017

Journal of Hazardous Materials

306

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“…[90,91] Within Pickering emulsions, inorganic magnetic nanoparticles have been explored as emulsifier agents, most commonly with the aim of producing systems whose direction and motion can be controlled using an externally applied magnetic field whilst maintaining the integrity of the Pickering emulsion. [92][93][94] Such species are promising for magnetic targeting to enhance drug release at a specific site whilst minimising systemic exposure, [93] though little work has shown practical demonstrations of this behaviour in vitro or in vivo. An interesting application of magnetic particle-stabilised Pickering emulsions is for scavenging and removal of unwanted species.…”

Section: Magnetically Responsive Pickering Emulsionsmentioning

confidence: 99%

“…Lee and co-workers showed the absorbance of a model dye compound into the aqueous phase of a magnetic Pickering emulsion, which can then be magnetically removed and recycled. [94] The magnetic properties of the particles within magnetic Pickering emulsions may also be exploited for triggered emulsion destabilisation and cargo release. This can be through the application of an alternating magnetic field which results in heating of the particles in a manner comparable to that used in hyperthermic treatments.…”

Section: Magnetically Responsive Pickering Emulsionsmentioning

confidence: 99%

Recent developments in Pickering emulsions for biomedical applications

Harman

Patel

Guldin

et al. 2019

Current Opinion in Colloid & Interface Science

141

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Pickering emulsions, stabilised by organic or inorganic particles, offer long-term dispersibility of liquid droplets and resistance to coalescence. The versatility of stabilising particles and their ability to encapsulate and release cargo with high internal payload capacity makes them attractive in a wide variety of applications, ranging from catalysis to the cosmetic and food industry. While these properties make them an equally promising material platform for pharmaceutical and clinical applications, the development of Pickering emulsions for healthcare is still in its infancy. Herein, we summarise and discuss recent progress in the development of Pickering emulsions for biomedical applications, probing their design for passive diffusion-based release as well as stimuli-responsive destabilisation. We further comment on challenges and future directions of this exciting and rapidly expanding area of research.Pickering emulsions have been applied in a number of areas of research and industrial importance, such as food manufacturing, cosmetics, agrochemicals and therapeutic delivery. Their popularity in biomedical applications (i.e. for use in healthcare, such as therapeutics, diagnostics or imaging), in particular, has increased dramatically in recent years, thanks to their high stability, capacity for superior cargo loading compared to conventional systems, and diverse range of stabilising particles, creating a broad library of available building blocks. For biomedical and pharmaceutical application, the choice of emulsifier is critical; it must be biocompatible, non-toxic, and be able to be excreted from the body (if necessary). In this article, we will review the latest developments in the design and application of Pickering emulsions for biomedicine, with a focus on stimuli-responsive Pickering emulsions as a route to the triggered release of a payload towards advanced therapeutic delivery strategies. Within this discussion, we will describe systems which have been applied in proof of concept and in vitro assessments and emphasise areas of potential future development.

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Magnetically controllable Pickering emulsion prepared by a reduced graphene oxide-iron oxide composite

Cited by 69 publications

References 78 publications

An Overview of Pickering Emulsions: Solid-Particle Materials, Classification, Morphology, and Applications

An Overview of Pickering Emulsions: Solid-Particle Materials, Classification, Morphology, and Applications

Environmental implications and applications of engineered nanoscale magnetite and its hybrid nanocomposites: A review of recent literature

Recent developments in Pickering emulsions for biomedical applications

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