Effect of pH on the stability of W1/O/W2 double emulsion stabilized by combination of biosilica and Tween-20

Sapei, Lanny; Adiarto, Tokok; Handomo, Roi; Chandra, Sonny Hutomo

doi:10.1051/matecconf/201821501028

Cited by 5 publications

(10 citation statements)

References 9 publications

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“…Low pH of outer continuous phase proved to produce higher stability of W/O/W emulsion stabilized by rice husk silica according to our previous investigation (Sapei et al, 2018). The proposed mechanisms of rice husk silica stabilization upon basic and alkaline pH has also been described (Sapei et al, 2018). The pH of the system seemed to play a significant part in influencing the wettability of silica particles and in establishing a stable O/W emulsion.…”

Section: Effect Of Ph Of Outer Continuous Phase On the Stability Of Omentioning

confidence: 78%

“…If particles were either very hydrophilic (q << 90 ) or very hydrophobic (q >> 90 ), they were easily removed from the interface (Binks & Rodrigues, 2009). Low pH of outer continuous phase proved to produce higher stability of W/O/W emulsion stabilized by rice husk silica according to our previous investigation (Sapei et al, 2018). The proposed mechanisms of rice husk silica stabilization upon basic and alkaline pH has also been described (Sapei et al, 2018).…”

Section: Effect Of Ph Of Outer Continuous Phase On the Stability Of Omentioning

confidence: 84%

“…The instability of O/W emulsion process due to mainly oil droplet coalescences followed the first-order kinetic model. Recent study demonstrates the influence of pH on the stability of W/O/W emulsion stabilized with rice husk silica/Tween-20 on the outer emulsion (Sapei et al, 2018). The acidic environment of the outer aqueous phase (pH < 4) enhanced the stabilizing action of rice husk silica particles on the interfacial layer.…”

Section: Silica For Stabilization Of O/w Emulsionmentioning

confidence: 99%

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Rice husk silica for the stabilization of food-grade oil-in-water (O/W) emulsions

Sapei

2020

Biopolymer-Based Formulations

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Food is a basic essential for human beings. Therefore, the overall product quality such as nutrition, texture, appearance, taste, and stability are of fundamental considerations. To provide food with good stability along with desirable texture and appearance, stabilizers have been usually added into processed food products. Stabilizers are generally added into processed foods containing mixtures of aqueous and oil phases. It functions as an enhancement to food texture and appearance, since it helps produce a stable emulsion. Emulsifiers are among the stabilizers which promptly enhance the stability of water-in-oil (W/O) or oil-in-water (O/W) emulsionebased food products. Emulsifiers consist of polar heads and nonpolar tails, and they reorient themselves on the interface of oil and water emulsion to lower the surface tension arising between those two immiscible phases, thus enabling the stable dispersion of one phase into another. Natural emulsifiers have been replaced by synthetic ones for a long time since they can be mass produced and are therefore lower in price. However, there has in recent times been a growing popularity in natural emulsifiers due to the undesirable health effects of synthetic emulsifiers over the longterm such as obesity and related issues (Simmons et al., 2014). On the other hand, natural emulsifiers have low toxicity, are easily degradable, biodegradable, are effective in extreme conditions, and are able to be reused via regeneration, so that they enjoy preference in the food industry despite their higher price (Koglin et al., 2010). Solid particles have existed in emulsion formulation for many years, such as those used in the food, oil, pharmaceutical, and agrochemical industries (Binks, 2002). They are believed to enhance stability to some extent. In many food and foam emulsions stabilized mainly through proteins and phospholipids, solid particles play a significant role for necessary stabilization, such as ice crystals in ice cream and the particles of fat in whipping cream (Binks, 2002). The use of colloidal particles to stabilize emulsions and foams known as the Pickering emulsion has been known for at least a century (Aveyard et al., 2003). Ramsden (1903) concluded that the existence of viscous material at the two immiscible liquids' interfaces contributed, in part, to the stability of many emulsions. Solid and stabilized emulsion was formed, thanks to finely divided solids dispersed between the interfaces of oil and water. Pickering (1907) observed that colloid particles dampened more easily by CHAPTER Biopolymer-Based Formulations.

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Section: Effect Of Ph Of Outer Continuous Phase On the Stability Of Omentioning

confidence: 78%

Section: Effect Of Ph Of Outer Continuous Phase On the Stability Of Omentioning

confidence: 84%

Section: Silica For Stabilization Of O/w Emulsionmentioning

confidence: 99%

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Rice husk silica for the stabilization of food-grade oil-in-water (O/W) emulsions

Sapei

2020

Biopolymer-Based Formulations

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“…Several particles which have been used for Pickering emulsions were silica, clays, polymer latex, magnetic particles, graphene, and polymethylpolymethylmethacrylate particles (Lee & Choi, 2018;Bao et al, 2019). The use of silica for the stabilization of O/W emulsion has been widely investigated (Sapei et al, 2017a;Sapei et al, 2017b;Sapei et al, 2018;Sapei, 2020). However, the use of bare silica was not effective and had to be combined with the use of polymeric emulsifiers to help its adsorption onto the interfacial layers (Pichot et al, 2012;Sapei et al, 2017a;Sapei et al, 2017b).…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore, the stability of W/O/W stabilized by silica-chitosan was dependent on pH since pH may have affected particle charge and rheological properties of the emulsion (Klinkesorn, 2013;Alison et al, 2016). At acidic pH, rice husk silica tended to be chargeless (Sapei et al, 2018) which may have limited its interaction with chitosan. On the other hand, the positive charges of chitosan tended to be decreased as pH was progressing towards neutral pH (Tiraferri et al, 2014;Mwangi et al, 2016;Alison et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Enhancement of the Stability of W/O/W Double Emulsion by Chitosan Modified Rice Husk Silica

Sapei¹,

Agustriyanto²,

Fitriani³

et al. 2022

IJTech

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The awareness of the need for healthy food continues to increase, hence, the demand for healthy food is also increasing. Water-in-oil-in-water (W/O/W) double emulsion can provide lowfat emulsion-based products due to a lower fraction of oil compared to the corresponding O/W emulsion. However, the stability of double emulsion has been quite tricky to be established due to the presence of two interfacial layers between oil and water. This research aims to study the use of biosilica in the form of rice husk ash (RHA) combined with both chitosan particles and chitosan solution to stabilize the interfacial layer between oil droplets and the outer aqueous phase. The concentrations of chitosan and biosilica, as well as pH of the outer aqueous phase in the acidic ranges, were varied to obtain W/O/W emulsion with higher stability. The primary emulsion was prepared by using the emulsifier mixtures of Tween 20 and Span 80. The resulting primary emulsion was subsequently dispersed into the outer aqueous phase, loaded with the combination of biosilica and chitosan particles/ solution. Emulsification processes were conducted using a rotorstator homogenizer. The resulting W/O/W emulsions with high stability of ~80-100% were obtained by using the combination of 0.5% biosilica and 1.25% chitosan particles/ 5.25% chitosan solution at the pH of 4. The use of biosilica and chitosan seemed promising to be applied in the manufacturing of healthier food emulsion-based products.

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Raman spectroscopy and molecular dynamics simulations of protein microgels at the oil-water interface

Feng,

Li,

et al. 2024

International Journal of Biological Macromolecules

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Effect of pH on the stability of W1/O/W2 double emulsion stabilized by combination of biosilica and Tween-20

Cited by 5 publications

References 9 publications

Rice husk silica for the stabilization of food-grade oil-in-water (O/W) emulsions

Rice husk silica for the stabilization of food-grade oil-in-water (O/W) emulsions

Enhancement of the Stability of W/O/W Double Emulsion by Chitosan Modified Rice Husk Silica

Raman spectroscopy and molecular dynamics simulations of protein microgels at the oil-water interface

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