Aggregation, ageing and transport properties of surface modified fumed silica dispersions

Nordström, Jonas; Matic, Aleksandar; Sun, Jiazeng; Forsyth, Maria; MacFarlane, Douglas R.

doi:10.1039/b921488g

Cited by 41 publications

(42 citation statements)

References 19 publications

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“…3). The fumed silica particles are fractal-like aggregates [42] of approximately spherical 5-30 nm diameter primary particles [30]. Silica nanoparticles with a 5 nm diameter silica core and short PEG chains grafted to the surface were a gift from 3M Co., St. Paul, MN as a 19.3% w/v dispersion.…”

Section: Methodsmentioning

confidence: 99%

Nanoparticle-stabilized carbon dioxide-in-water foams with fine texture

Worthen

Bagaria

Chen

et al. 2013

Journal of Colloid and Interface Science

193

131

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Section: Methodsmentioning

confidence: 99%

Nanoparticle-stabilized carbon dioxide-in-water foams with fine texture

Worthen

Bagaria

Chen

et al. 2013

Journal of Colloid and Interface Science

193

131

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“…The maximum in foamability for aqueous systems corresponds to a residual percentage of around 35% SiOH. 3 The primary particles are quasi-spherical, of 20-30 nm in diameter, and are aggregated during the manufacturing process into clusters of about 200 nm in diameter 21 .…”

Section: Methodsmentioning

confidence: 99%

Aqueous foams stabilized solely by particles

et al. 2011

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Foams are dispersions of bubbles in liquids, often water. They are frequently stabilized by surfactant or polymer, but like Pickering emulsions, they can be also stabilized solely by particles. If the particles have a moderate hydrophobicity, the foams can be extremely stable (lifetimes of the order of years). Due to technical preparation difficulties, very few studies can be found in the literature to date. We will discuss the origin of these difficulties. We will also describe experiments using partially hydrophobic fumed silica particles, in which the foam properties were correlated with the properties of spread and adsorbed layers of these particles at the air-water interface. These combined experiments allowed us to define the conditions necessary to stop bubble disproportionation.

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“…Melt mixing is the most time-and cost-effective technique, but it requires that the filler is used in powder form. Although produced in the nm-range and with a narrow size distribution, such kind of dry nanoparticles have the tendency to fuse together forming stable aggregates, suffering from further agglomeration during handling and/or storage [9]. The immediate advantage offered by solution mixing is a better filler dispersion [10].…”

mentioning

confidence: 99%

Dispersing hydrophilic nanoparticles in hydrophobic polymers: HDPE/ZnO nanocomposites by a novel template-based approach

Luna¹,

Galizia²,

Wojnarowicz³

et al. 2014

Express Polym. Lett.

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The efficiency of a novel template-based approach for the dispersion of hydrophilic nanoparticles within hydrophobic polymer matrices is investigated. The procedure envisages the permeation of a well dispersed nanoparticle suspension inside a micro-porous matrix, obtained through selective extraction of a sacrificial phase from a finely interpenetrated co-continuous polymer blend. Specifically, a blend of high density polyethylene (HDPE) and polyethylene oxide (PEO) at 50/50 wt% is prepared by melt mixing. The addition of small amounts of organo-clay promotes the necessary refinement of the blend morphology. Once removed the PEO, the micro-porous HDPE matrix is dipped in a colloidal suspension of zinc oxide nanoparticles which exhibits low interfacial tension with HDPE. A system prepared by traditional melt mixing is used as reference. Melt- and solid-state viscoelastic measurements reveal a good quality of the filler dispersion despite the uneven distribution on micro-scale. The latter can be capitalized to minimize the filler content to attain a certain improvement of the material properties or to design nano-structured polymer composites

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Aggregation, ageing and transport properties of surface modified fumed silica dispersions

Cited by 41 publications

References 19 publications

Nanoparticle-stabilized carbon dioxide-in-water foams with fine texture

Nanoparticle-stabilized carbon dioxide-in-water foams with fine texture

Aqueous foams stabilized solely by particles

Dispersing hydrophilic nanoparticles in hydrophobic polymers: HDPE/ZnO nanocomposites by a novel template-based approach

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