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Influence of Various Hydrocolloids on Suspension Stability of Chia Seeds (Salvia hispanica L.) in Mango Beverage and Mango Flavored Beverage
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作者 Reda A. Aamer Ibrahim A. Attia E. S. Abd El-Wahab 《Food and Nutrition Sciences》 CAS 2023年第2期101-118,共18页
With the developing of juices and beverages industry, the processors need to bring new nutritional fortified products to capture the market as per the demand of the consumer who needs healthier product. Thus, this stu... With the developing of juices and beverages industry, the processors need to bring new nutritional fortified products to capture the market as per the demand of the consumer who needs healthier product. Thus, this study aimed to the production of mango beverage and mango flavored beverage fortified with chia seeds;evaluate the chemical properties of chia seeds and study the effect of adding carboxymethyl cellulose, xanthan gum and low acyl gellan gum at the concentrations of 0.05% and 0.1% on the stability of suspension chia seeds in beverage during storage at ambient temperature for six months. Viscosity, color, zeta potential, suspension of seeds and organoleptic properties were evaluated. Results showed that chia seeds were rich in protein, omega-3 fatty acids and dietary fiber. The addition of 0.05% gellan gum led to improved appearance attributes and the highest stability of suspension of chia seeds for six months, and was the sample which scored highest for overall acceptability compared to the other samples of beverages. Results indicated that using chia seeds with the addition of 0.05% low acyl gellan gum led to the production of fortified mango beverage and mango flavored beverage with high stability for six months. 展开更多
关键词 Mango Beverage Mango Flavored Beverage Chia Seeds HYDROCOLLOIDS suspension Stability
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Stabilization of nickel nanoparticle suspensions with the aid of polymer and surfactant: static bottle tests and dynamic micromodel flow tests 被引量:1
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作者 Siyuan Yi Tayfun Babadagli Huazhou Li 《Petroleum Science》 SCIE CAS CSCD 2020年第4期1014-1024,共11页
Nickel nanoparticles can work as catalyst for the aquathermolysis reactions between water and heavy oil.A homogeneous and stable suspension is needed to carry the nickel nanoparticles into deeper reservoirs.This study... Nickel nanoparticles can work as catalyst for the aquathermolysis reactions between water and heavy oil.A homogeneous and stable suspension is needed to carry the nickel nanoparticles into deeper reservoirs.This study conducts a detailed investigation on how to achieve stabilized nickel nanoparticle suspensions with the use of surfactant and polymer.To stabilize the nickel nanoparticle suspension,three surfactants including sodium dodecyl sulfate,cationic surfactant cetyltrimethylammonium bromide and polyoxyalkalene amine derivative(Hypermer) along with xanthan gum polymer were introduced into the nickel nanoparticle suspension.Static stability tests and zeta potential measurements were conducted to determine the polymer/surfactant recipes yielding the most stable nickel nanoparticle suspensions.Dynamic micromodel flow tests were also conducted on three suspensions to reveal how the nickel nanoparticles would travel and distribute in porous media.Test results showed that when the injection was initiated,most nickel nanoparticles were able to pass through the gaps between the sand grains and produced in the outlet of the micromodel;only a small number of the nickel nanoparticles were attached to the grain surface.A higher nickel concentration in the suspension may lead to agglomeration of nickel nanoparticles in porous media,while a lower concentration can mitigate this agglomeration.Moreover,clusters tended to form when the nickel nanoparticle suspension carried an electrical charge opposite to that of the porous media.Follow-up waterflood was initiated after the nanofluid injection.It was found that the waterflood could not flush away the nanoparticles that were remaining in the micromodel. 展开更多
关键词 Aquathermolysis reactions Nickel nanoparticles Polymer surfactant suspension stability
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Solid state synthesis of nano-mineral particles 被引量:4
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作者 S.Sakthivel R.Prasanna Venkatesh 《International Journal of Mining Science and Technology》 SCIE EI 2012年第5期651-655,共5页
Many researchers in academia and industries are interested in reducing particle sizes from few submicrometers to nano-meter levels.These nano-particles find application in several areas including ceramics,paints,cosme... Many researchers in academia and industries are interested in reducing particle sizes from few submicrometers to nano-meter levels.These nano-particles find application in several areas including ceramics,paints,cosmetics,microelectronics,sensors,textiles and biomedical,etc.This article reviews the present state of the art for solid state synthesis of mineral nano-particles by wet milling,including their operating variables such as ball size,solid mass fraction and suspension stability.This article concludes and recommends with a critical discussion of nano-particles synthesis and a few common strategies to overcome stability issues. 展开更多
关键词 Vapor phase Liquid phase Solid state Nano-particle suspension stability
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Influence of suspension stability on wet grinding for production of mineral nanoparticles 被引量:4
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作者 S.Sakthivel Venkatesan V.Krishnan B.Pitchumani 《Particuology》 SCIE EI CAS CSCD 2008年第2期120-124,共5页
Grinding behavior of nanoparticles in an attritor mill and the minimum achievable particle size are strongly influenced by the suspension stability. In the present work, suspension stability (i.e. ξ-potential) of n... Grinding behavior of nanoparticles in an attritor mill and the minimum achievable particle size are strongly influenced by the suspension stability. In the present work, suspension stability (i.e. ξ-potential) of nanoparticles was studied by measuring pH as a function of grinding time in the wet milling process. It was found that after a certain time in an attritor mill, there is no further size reduction and the average product particle size increases monotonically. One of the reasons is that the production of submicron particles leads to more particle-particle interactions and consequently pH of the suspension decreases with grinding time. Usually pH value is related to suspension stability and it can be enhanced by addition of NaOH solution. The maximum negative ξ-potential of -51.2 mV was obtained at pH of 12 for silica. The higher the ξ-potential with the same polarity, higher will be the electrostatic repulsion between the particles. Hence, the maximum electrostatic repulsion force was maintained by the adjustment ofpH value in wet milling. The experiments were conducted at different pH conditions which were maintained constant throughout the experiments and nanosized particles were obtained consequently. 展开更多
关键词 suspension stability ξ-Potential Nanosilica particle Attritor mill
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Enhanced Anticancer Cells Effects of Optimized Suspension Stable As2O3-Loaded Poly(lactic-co-glycolic acid) Nanocapsules
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作者 Xiaoli Song Juan You +3 位作者 Chunlan Xu Aiping Zhu Caifeng Yan Rong Guo 《Chinese Journal of Chemistry》 SCIE CAS CSCD 2015年第7期777-784,共8页
This study is to prepare a nanosuspension based on poly(lactic-co-glycolic acid) (PLGA) for delivery, controlled release and enhanced anti-solid tumor effects of As2O3. As2O3-1oaded PLGA nanocapsules (As2O3-PLGA... This study is to prepare a nanosuspension based on poly(lactic-co-glycolic acid) (PLGA) for delivery, controlled release and enhanced anti-solid tumor effects of As2O3. As2O3-1oaded PLGA nanocapsules (As2O3-PLGANCs) were prepared by double emulsion-solvent evaporation method and were optimized by univariate analysis in combination with orthogonal experimental according to several factors. The optimized As2O3-PLGA NCs presented suitable physical stability, favorable size of (200.2± 10.6) nm (PDI=0.117 ±0.008), spherical shape, and high encapsulation efficiency (92.48%± 2.14%). The in vitro suspension stability of the NCs was excellent. The release of As2O3 from the NCs showed pH responsive release characteristics. The NCs can be efficiently taken up by SMMC-7721 cell and showed excellent antitumor efficacy against SMMC-7721 cell line. Then, As2O3-PLGA NCs could be considered as a promising formulation for the pH dependent release of As2O3 in cancer cells and enhance the anti-solid tumor effects of As2O3. 展开更多
关键词 As2O3-PLGA nanocapsules orthogonal experiment suspension stability drug delivery
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Preparation of stable colloidal suspensions of superdisintegrants via wet stirred media milling
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作者 Mohammad A.Azad Afolawemi Afolabi +2 位作者 Nikita Patel Rajesh Davé Ecevit Bilgili 《Particuology》 SCIE EI CAS CSCD 2014年第3期76-82,共7页
Superdisintegrants are cross-linked polymers that can be used as dispersants for fast release of drug nanoparticles from nanocomposite microparticles during in vitro and in vivo dissolution. Currently avail- able supe... Superdisintegrants are cross-linked polymers that can be used as dispersants for fast release of drug nanoparticles from nanocomposite microparticles during in vitro and in vivo dissolution. Currently avail- able superdisintegrant particles have average sizes of approximately 5-130 μm, which are too big for drug nanocomposite applications. Hence, production of stable superdisintegrant suspensions with less than 5 μm particles is desirable. Here, we explore the preparation of colloidal suspensions of anionic and nonionic superdisintegrants using a wet stirred media mill and assess their physical stability. Sodium starch glycolate (SSG) and crospovidone (CP) were selected as representative anionic and nonionic superdisintegrants, and hydroxypropyl cellulose (HPC) and sodium dodecyl sulfate (SDS) were used as a steric stabilizer and a wetting agent/stabilizer, respectively. Particle sizing, scanning electron microscopy, and zeta potential measurements were used to characterize the suspensions. Colloidal superdisintegrant suspensions were prepared reproducibly. The extensive particle breakage was attributed to the swelling-induced softening in water. SSG suspensions were stable even in the absence of stabilizers, whereas CP suspensions required HPC-SDS for minimizing particle aggregation. These findings were explained by the higher absolute (negative) zeta potential of the suspensions of the anionic superdisintegrant (SSG) as compared with those of the nonionic superdisintegrant (CP). 展开更多
关键词 Colloidal suspensions Dispersants Physical stability Superdisintegrants Swelling Wet stirred media milling
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