Non-aqueous emulsions have a wide range of applications in cosmetics,drug-controlled release,and the preparation of functional nanoparticles.However,due to the weaker polarity of non-aqueous solvents,these emulsions o...Non-aqueous emulsions have a wide range of applications in cosmetics,drug-controlled release,and the preparation of functional nanoparticles.However,due to the weaker polarity of non-aqueous solvents,these emulsions often exhibit inferior stability compared to their aqueous counterparts.In this experiment,the properties of quaternary ammonium surfactants in glycerol were investigated through surface tension measurements,to further enhance the stability of n-decane/glycerol emulsions,hydrophilic nanoparticles SiO_(2) were modified in situ using double tailed quaternary ammonium surfactants Di-C_(12)DAB and Di-C_(16)DAB.Stable n-decane/glycerol Pickering emulsions were successfully prepared.These emulsions were stable at 45℃for over six months,and no significant changes in droplet size occurred.The minimum droplet size of the emulsion was only 2-3μm.Contact angle measurements showed that the wettability of the silica surface was tremendously affected by the concentration and the alkyl chain length of the double-tailed surfactants.In the presence of Di-C_(12)DAB,the contact angle of glycerol on the silica surface increased monotonically with the surfactant concentration.This explains the phenomenon that the Pickering emulsions containing Di-C_(12)DAB and silica particles were stable within the contact angle range of 80°-120°.Comparatively,the contact angle of the glycerol on the silica surface in the presence of Di-C_(16)DAB first increased with surfactant concentrations and then decreased,reaching a maximum at 0.6 mmol/L.It can be concluded that Di-C_(12)DAB formed monolayers at the surface of silica particles within all investigated concentrations.On the contrary,Di-C_(16)DAB formed monolayers at concentrations below 0.6 mmol/L and formed double layers at concentrations above 0.6 mmol/L,leading to a non-monotonic change in the contact angle with respect to concentration.Using these stable non-aqueous Pickering emulsions as templates,polymer microspheres with a particle size of 2-3μm were successfully prepared with high yield.This work is helpful to expand the potential applications of non-aqueous emulsions in the encapsulation of drug,controlled release,material preparation,and cosmetic formulations.展开更多
Practical application of carvacrol in different fields including foods and biopesticides has been limited due to its instability and water insolubility.In this work,carvacrol encapsulated Pickering emulsion is develop...Practical application of carvacrol in different fields including foods and biopesticides has been limited due to its instability and water insolubility.In this work,carvacrol encapsulated Pickering emulsion is developed by using polymeric Janus nanoparticles as the stabilizer.To achieve this,dumbbell-shaped polymeric nanoparticles composed of two spheres of shellac and polylactic acid(PLA)are firstly prepared via co-precipitation in a rotating packed bed reactor,followed by grafting of chitooligosaccharides(COS)onto shellac to synthesis amphiphilic Janus nanoparticles(PLA/shellac-COS).Pickering emulsions with typical oil-in-water,bi-continuous structure and water-in-oil characteristics are produced by configuring carvacrol emulsions with different oil-to-water ratios.The stability of emulsions with 5%carvacrol content stabilized by 0.5% PLA/shellac-COS nanoparticles were more stable when compared to those prepared by shellac nanoparticles and PLA/shellac nanoparticles.After stored for one month,the carvacrol encapsulated Pickering emulsions maintained a high zeta potential of-43.8 mV,with no significant changes in particle size.These preliminary studies illustrated that polymeric Janus nanoparticles synthesized by co-precipitation in a rotating packed bed are promising particles for Pickering emulsions and related work in the future.展开更多
W/O/W multi-structure emulsions were prepared by two-step method,to investigate the effect of different W/O emulsifier,anionic emulsifier as well as the first phase volume ratio on the formation and stability of multi...W/O/W multi-structure emulsions were prepared by two-step method,to investigate the effect of different W/O emulsifier,anionic emulsifier as well as the first phase volume ratio on the formation and stability of multi-structure emulsions.The result indicated that ES-5300 is efficient in forming the homogeneous and stable W/O/W multi-structure emulsions which related to the emulsifier structure and low HLB value.Compared with other anionic emulsifier,sodium isostearoyl lactylate can product more stable multi-structure emulsions.However,the higher temperature stability was affected by the increasing of it.In addition,appropriate first phase volume ratio is critical to the stability of multi-structure emulsions.The multi-structure emulsions with better encapsulation efficiency and great performance in higher temperature was achieved when the first phase volume ratio equal to 1.展开更多
Complex emulsions,such as double emulsions and high-internal-phase emulsions,have shown great applications in the fields of drug delivery,sensing,catalysis,oil-water separation and self-healing materials.Their control...Complex emulsions,such as double emulsions and high-internal-phase emulsions,have shown great applications in the fields of drug delivery,sensing,catalysis,oil-water separation and self-healing materials.Their controllable preparation is at the forefront of interface and material science.Surfactants and polymers have been widely used as emulsifiers for building complex emulsions.Yet some inherent disadvantages exist including multi-step emulsifications and low production efficiency.Alternatively,supramolecular polymer emulsifier for complex emulsions via one-step emulsification is rising as a new strategy due to the ease of preparation.In this feature article,we review our recent progresses in using supramolecular polymer emulsifiers for the preparation of complex emulsions.Double emulsions and high-internal-phase emulsions are successfully prepared via one-step emulsification with the help of different supramolecular interactions including electrostatic,hydrogen bond,coordination interaction and dynamic covalent bond,which will be particularly emphasized in detail.In the end,a comprehensive prospect is given for the future development of this field.This article is expected to provide new inspirations for preparing complex emulsions via supramolecular routes.展开更多
Naturally degradable capsule provides a platform for sustained fragrance release.However,practical challenges such as low encapsulation efficiency and difficulty in sustained release are still limited in using fragran...Naturally degradable capsule provides a platform for sustained fragrance release.However,practical challenges such as low encapsulation efficiency and difficulty in sustained release are still limited in using fragranceloaded capsules.In this work,the natural materials sodium alginate and gelatine are dissolved and act as the aqueous phase,lavender is dissolved in caprylic/capric triglyceride(GTCC)as the oil phase,and SiO_(2) nanoparticles with neutralwettability as a solid emulsifier to form O/W Pickering emulsions simultaneously.Finally,multi-core capsules are prepared using the drop injection method with emulsions as templates.The results show that the capsules have been successfully prepared with a spherical morphology and multi-core structure,and the encapsulation rate of multi-core capsules can reach up to 99.6%.In addition,the multi-core capsules possess desirable sustained release performance,the cumulative sustained release rate of fragrance at 25℃over 49 days is only 32.5%.It is attributed to the significant protection of multi-core structure,Pickering emulsion nanoparticle membranes,and hydrogel network shell for encapsulated fragrance.This study is designed to deliver a new strategy for using sustained-release technology with fragrance in food,cosmetics,textiles,and other fields.展开更多
The stability of acid-crude oil emulsion poses manifold issues in the oil industry.Experimentally evaluating this phenomenon may be costly and time-consuming.In contrast,machine learning models have proven effective i...The stability of acid-crude oil emulsion poses manifold issues in the oil industry.Experimentally evaluating this phenomenon may be costly and time-consuming.In contrast,machine learning models have proven effective in predicting and evaluating various phenomena.This research is the first of its kind to assess the stability of acid-crude oil emulsion,employing various classification machine learning models.For this purpose,a data set consisting of 249 experimental data points belonging to 11 different crude oil samples was collected.Three tree-based models,namely decision tree(DT),random forest(RF),and categorical boosting(CatBoost),as well as three artificial neural network models,namely radial basis function(RBF),multi-layer perceptron(MLP) and convolutional neural network(CNN),were developed based on the properties of crude oil,acid,and protective additive.The CatBoost model obtained the highest accuracy with 0.9687,followed closely by the CNN model with 0.9673.In addition,confusion matrix findings showed the superiority of the CatBoost model.Finally,by applying the SHapley Additive exPlanations(SHAP) method to analyze the impact of input parameters,it was found that the crude oil viscosity has the most significant effect on the model's output with the mean absolute SHAP value of 0.88.展开更多
As a natural oil-soluble emulsifier to replace Polyglycerol Polyricinoleate(PGPR),lecithin's application in double emulsions(DEs)remains constrained due to low encapsulation efficiency and stability,while incorpor...As a natural oil-soluble emulsifier to replace Polyglycerol Polyricinoleate(PGPR),lecithin's application in double emulsions(DEs)remains constrained due to low encapsulation efficiency and stability,while incorporating Pickering particles within the inner aqueous phase(W_(1))has emerged as an effective approach to enhance DEs stability.However,the interfacial interactions between Pickering particles in W_(1) and lecithin in oil phase and their effects on the physical,delivery and digestion properties of DEs remain to be explored.In this study,a natural Pickering DEs encapsulating blueberry anthocyanins(ANCs)was developed using lecithin and gliadinbased particles,with gliadin colloid particles(GCPs)introduced into W_(1).The effects of GCP concentration in W_(1) on emulsion droplet size,microstructure,W_(1)/O interfacial rheology,in vitro digestion,and ANCs delivery performance were systematically investigated.Results showed that GCPs in W_(1) accelerated the decreasing of W_(1)/O interfacial tension,indicating that,beyond competitive adsorption,combination between the two might also occur at the interface,which could accelerate the interfacial adsorption of lecithin.GCPs significantly improved the strength of the W_(1)/O interface,thus improving ANCs encapsulation efficiency from 49.66%to 70.60%.Moreover,the droplet size of DEs decreased from 38.94μm to 24.09μm as GCPs concentration increased,indicating that some GCPs might transfer to the outer aqueous phase through phase exchange,acting as hydrophilic emulsifiers.GCPs in W_(1) can modulate ANCs in vitro release,enhancing ANCs'bioaccessibility(31.10%)and antioxidant capacity.展开更多
Herein,a recrystallization approach was used to produce anhydrous sodium sulfate(ASS)microparticles,which are highly efficient and reusable for separating surfactant-stabilized water from water-in-oil emulsions.The AS...Herein,a recrystallization approach was used to produce anhydrous sodium sulfate(ASS)microparticles,which are highly efficient and reusable for separating surfactant-stabilized water from water-in-oil emulsions.The ASS microparticles exhibit distinct morphologies and crystal structures.Remarkably,0.1 g of ASS170 enables the separation of 10 m L of emulsion(water content:0.1 g)with a high separation efficiency of 98.63%.A stepwise separation mechanism,including demulsification and water immobilization in the crystal lattice of ASS,is proposed.The superhydrophilicity of ASS particles enables tiny water droplets to aggregate and merge into larger droplets on their surfaces.This process facilitates the phase transition from ASS to sodium sulfate decahydrate(SSD),during which water molecules are immobilized in the expanded crystal lattice of ASS.SSD particles can be collected to regenerate ASS,retaining the high performance of the original ASS.This unique renewable feature reduces the cost of utilizing ASS and simultaneously prevents secondary pollution.Further economic evaluation reveals that it only costs 66.51USD/m3to purify emulsion with a water content of 10 g/L,significantly lower than previously reported materials.Coupled with a facile and environmentally friendly preparation strategy,this method shows great application potential for water-in-oil emulsion separation and oil purification.展开更多
This study prepared and characterized amphiphilic carboxymethyl cellulose stearate(CMCS)recycled from sugarcane bagasse agro-waste(SB).The Fourier-transform infrared(FTIR)analysis confirmed cellulose,carboxymethyl cel...This study prepared and characterized amphiphilic carboxymethyl cellulose stearate(CMCS)recycled from sugarcane bagasse agro-waste(SB).The Fourier-transform infrared(FTIR)analysis confirmed cellulose,carboxymethyl cellulose(CMC),and CMCS structures,with CMCS showing increased H-bonding.X-ray diffraction analysis(XRD)revealed reduced crystallinity in CMC and CMCS.CMCS exhibited a hydrophobic nature but dispersed in water,enabling nanoemulsion formation.Optimal nanoemulsion was achieved with CMCS1,showing a particle size of 99 nm.Transmission electron microscopy(TEM)images revealed CMC’s honeycomb structure,transforming into spherical particles in CMCS1.Antimicrobial tests demonstrated strong activity of CMCS formulations against Escherichia coli and Staphylococcus aureus,with CMCS3 exhibiting the highest efficacy.These findings highlight the potential of CMCS-based nanoemulsions for antimicrobial applications and nanoemulsification.展开更多
During oil displacement,surfactants often encounter challenges such as emulsion instability and channeling,which can compromise their efficiency.To address these issues,polymer microspheres were synthesized via revers...During oil displacement,surfactants often encounter challenges such as emulsion instability and channeling,which can compromise their efficiency.To address these issues,polymer microspheres were synthesized via reverse microemulsion polymerization using acrylamide,2-methyl-2-acrylamidopropane sulfonic acid,and stearyl methacrylate as monomers,with N,N-methylenebisacrylamide as the crosslinker.The microspheres were then combined with sodium alkyl alcohol polyoxyethylene ether carboxylate to enhance emulsion stability and expand the swept volume of surfactant.A stable reverse microemulsion system was prepared using the maximum water solubilization rate as the indicator,and microspheres were synthesized based on this system.The ability of the microspheres to enhance emulsion stability was systematically evaluated.The plugging performance and enhanced oil recovery(EOR)efficiency of the microsphere/surfactant composite system were assessed through core seepage and oil displacement experiments.The experimental results demonstrated that microspheres were successfully prepared in a water-in-oil reverse microemulsion system with a solubilization rate of 42%.The emulsion stability was evaluated under an oil-to-water ratio of 7:3,a temperature of 80℃,and a salinity of 44,592 mg/L,by manually shaking the test tube five times.It was observed that the complete phase separation time of the emulsion increased from 10 to 120 min after the addition of microspheres.Under different permeability conditions(100×10^(-3),300×10^(-3),500×10^(-3)μm^(2)),the recovery efficiency of the composite system increased by 4.5%,8.3%,and 4.8%,respectively,compared to a single surfactant system.The microspheres developed in this study enhanced emulsion stability and increased the swept volume of surfactant within the formation,significantly boosting its oil recovery efficiency.展开更多
The stability of oil-dominated emulsions,including oil-based drilling fluids and crude oils,is crucial for mitigating gas hydrate risks in the petroleum and natural gas industries.Nanoparticles can stabilize oilwater ...The stability of oil-dominated emulsions,including oil-based drilling fluids and crude oils,is crucial for mitigating gas hydrate risks in the petroleum and natural gas industries.Nanoparticles can stabilize oilwater systems(Pickering emulsions)by residing at the oil-water interface.However,their effects on the kinetics of hydrate formation in these systems remain unclear.To address this,we experimentally investigated how hydrophilic and hydrophobic nano-CaCO_(3) influence CH4 hydrate formation within dynamic oil-water systems.A series of hydrate formation experiments were conducted with varying water cuts and different concentrations of nano-CaCO_(3) at a particle size of 20 nm,under 3℃ and 6 MPa.The induction time,hydrate formation volume,and hydrate growth rate were measured and calculated.The results indicate that hydrophilic nano-CaCO_(3) generally inhibits hydrate formation,particularly at high water cuts,while hydrophobic nano-CaCO_(3) can significantly inhibit or even prevent hydrate formation at low water cuts.Water cut strongly influences the kinetics of hydrate formation,and nanoparticle concentration also impacts the results,likely due to changes in oil-water interface stability caused by nanoparticle distribution.This study will offer valuable insights for designing deepwater oilbased drilling fluids using nanoparticles and ensuring safe multiphase flow in deepwater oil and gas operations.展开更多
We measured the water content (0.01% 0.25% w/w) in crude oil emulsions using terahertz time-domain spectroscopy (THz-TDS). To improve the precision and range of the measurements, we used 1 and 10 mm thick quartz c...We measured the water content (0.01% 0.25% w/w) in crude oil emulsions using terahertz time-domain spectroscopy (THz-TDS). To improve the precision and range of the measurements, we used 1 and 10 mm thick quartz cells. The experiments were performed at 20 ℃ and the THz wave was transmitted vertically to the samples and detected on the other side. The experimental results suggest linear relation for the THz absorption coefficient and the water content of the crude oil emulsions in the observed range. The linear dependence facilitates high-precision measurements of the water content of crude oil. This suggests the potential of THz-TDS in determining the water concentration in crude oil and borehole fluid identification.展开更多
The functional fractions (acid, basic, amphoteric and neutral fractions) are isolated from the Liaohe Du-84 heavy crude oil and Shengli Gudao Kenxi heavy crude oil by ion-exchange chromatography, but the conventional...The functional fractions (acid, basic, amphoteric and neutral fractions) are isolated from the Liaohe Du-84 heavy crude oil and Shengli Gudao Kenxi heavy crude oil by ion-exchange chromatography, but the conventional fractions (saturates, aromatics, resins and asphaltenes) are also isolated from the heavy crude oil. These components have been characterized by spectroscopic methods (FT-IR), namely acid number, basic nitrogen number, ultimate analysis and molecular weight measurements using vapor pressure osmometry (VPO). The ion-exchange chromatography method based on separation by a functional group induces a little change on the nature of the crudes and reasonable mass balances can be easily obtained.展开更多
In recent years,Pickering emulsions and their applications have attracted a great deal of attention due to their special features,which include easy preparation and enhanced stability.In contrast to classical emulsion...In recent years,Pickering emulsions and their applications have attracted a great deal of attention due to their special features,which include easy preparation and enhanced stability.In contrast to classical emulsions,in Pickering emulsions,solid microparticles or nanoparticles that localize at the interface between liquids are used as stabilizers,instead of surfactants,to enhance the droplet lifetime.Furthermore,Pickering emulsions show higher stability,lower toxicity,and stimuli-responsiveness,compared with emulsions that are stabilized by surfactants.Therefore,they can be considered attractive components for various uses,such as photocatalysis and the preparation of new materials.Moreover,the nanoparticle morphology strongly influences Pickering emulsion stability as well as the potential utilization of such emulsions.Here,we review recent findings concerning Pickering emulsions,with a particular focus on how the nanoparticles morphology(i.e.,cube,ellipsoid,nanosheet,sphere,cylinder,rod,peanut)influences the type and stability of such emulsions,and their current applications in different fields such as antibacterial activity,protein recognition,catalysis,photocatalysis,and water purification.展开更多
A novel polymer/SiO2 hybrid emulsion(PAES)was prepared by directly mixing colloidal silica with polyacrylate emulsion(PAE)modified by a saline coupling agent.The sol-gel-derived thin films were obtained by addition of...A novel polymer/SiO2 hybrid emulsion(PAES)was prepared by directly mixing colloidal silica with polyacrylate emulsion(PAE)modified by a saline coupling agent.The sol-gel-derived thin films were obtained by addition of co-solvents into the PAES.The effects ofγ-methacryloxypropyltrimethoxysilane(KH-570)content and co-solvent on the properties of PAES films were investigated.Dynamic laser scattering(DLS)data indicate that the average diameter of PAES(96 nm)is slightly larger than that of PAE(89 nm).Transmission electron microscopy (TEM)photo discloses that colloidal silica particles are dispersed uniformly around polyacrylate particles and some of the colloidal silica particles are adsorbed on the surface of PAE particles.The crosslinking degree data and Fourier transform infrared(FT-IR)spectra confirm that the chemical structure of the PAES is changed to form Si-O-Si-polymer crosslinking networks during the film formation.Atomic force microscope(AFM)photos show the solvent induced sol-gel process of colloidal silica and the Si-based polymer distribution on the film surface of the dried PAES.Thermogravimetric analysis(TGA)curves demonstrate that the PAES films display much better thermal stability than PAE.展开更多
The aim of this study was to investigate the effect of high-pressure homogenization on the droplet size and physical stability of different formulations of pectin–zein stabilized rice bran oil emulsions. The obtained...The aim of this study was to investigate the effect of high-pressure homogenization on the droplet size and physical stability of different formulations of pectin–zein stabilized rice bran oil emulsions. The obtained emulsions, both before and after passing through highpressure homogenizer, were subjected to stability test under environmental stress conditions,that is, temperature cycling at 4 °C/40 °C for 6 cycles and centrifugal test at 3000 rpm for 10 min. Applying high-pressure homogenization after mechanical homogenization caused only a small additional decrease in emulsion droplet size. The droplet size of emulsions was influenced by the type of pectin used;emulsions using high methoxy pectin(HMP) were smaller than that using low methoxy pectin(LMP). This is due to a greater emulsifying property of HMP than LMP. The emulsions stabilized by HMP–zein showed good physical stability with lower percent creaming index than those using LMP, both before and after passing through high-pressure homogenizer. The stability of emulsions after passing through high-pressure homogenizer was slightly higher when using higher zein concentration, resulting from stronger pectin–zein complexes that could rearrange and adsorb onto the emulsion droplets.展开更多
The discrimination against nutritional fat emulsion injections was considered by imaging tools,which aims to elucidate the in vivo behaviors of nanoemulsions.In this study,20%nutritional fat emulsion injections were s...The discrimination against nutritional fat emulsion injections was considered by imaging tools,which aims to elucidate the in vivo behaviors of nanoemulsions.In this study,20%nutritional fat emulsion injections were selected from different company including original and generic products.Meanwhile,a water quenching fluorescent probe(P2)was used to label them by an incubation method.The fluorescent intensity analysis of blood-borne fluorescence reveals rapid clearance of nanoemulsion in all groups,which shows'L'-type blood kinetic profiles.However,these kinetic parameters do not have significant difference.Following intravenous administration,the nanoemulsions in all groups concomitantly accumulated in organs of reticulo-endothelial system(RES),such as liver and spleen,and were cleared from body circulation mostly after 12 h.AUC(0-t)of organs from different groups showed dissimilar results in some organs.These intuitional results are of significance in understa nding the in vivo behaviors of nanoemulsions,which can provide a new way to discriminate against nutritional fat emulsions.展开更多
A series of polyacrylate emulsions were blended with tackifier resin emulsions such as modified rosin emulsion, C5 resin and C9 resin emulsion. The miscibility of the polyacrylates and tackifier resins was investigate...A series of polyacrylate emulsions were blended with tackifier resin emulsions such as modified rosin emulsion, C5 resin and C9 resin emulsion. The miscibility of the polyacrylates and tackifier resins was investigated by means of SEM and visual observation. The phase diagrams of the miscibility change systematically with the polarity of polyacrylates and tackifier resins. The influence of the content of the tackifier resins on the adhesion properties of the; polyacrylate emulsions were also studied. The results show that the 180 degrees C peel strength is improved as the amount of the tackifier resin increases and comes to a maximum at a specific content. The ball tack property decreases slightly and the hold strength changes complicatedly as the tackifier resin increases.展开更多
Dogwood fruits are a valuable source of active ingredients, such as phenolic compounds, vitamin C, iridoids, flavonoids and anthocyanins. Plant extracts and substances derived from latin Cornus mas L. exhibit not only...Dogwood fruits are a valuable source of active ingredients, such as phenolic compounds, vitamin C, iridoids, flavonoids and anthocyanins. Plant extracts and substances derived from latin Cornus mas L. exhibit not only strong antibacterial but also antioxidant and tonicity properties, effectively preventing the development of inflammation in living organisms. In the present study, we attempted to obtain the innovative, multi-functional plant extract from the fruit of dogwood(Cornus mas L.). During the extraction process a mixture of water, glycerol, and vegetable oil were used as an extractant. The usage of such mixtures of solvents enabled us to extract a variety of active substances, soluble in both water and oils. The obtained extracts were analyzed for their physicochemical and biochemical properties, in order to apply the extract in a body nutrient lotion. The results clearly showed that such extract could be an innovative and multi-functional raw material used in cosmetics industry.展开更多
Macromolecules of polysaccharides, proteins and poloxamers have a hydrophobic portion and a hydrophilic one that can be used as emulsifiers. Parts of these emulsifiers are safe pharmaceutical excipients, which can rep...Macromolecules of polysaccharides, proteins and poloxamers have a hydrophobic portion and a hydrophilic one that can be used as emulsifiers. Parts of these emulsifiers are safe pharmaceutical excipients, which can replace the irritant low molecular weight surfactants to formulate emulsions for the pharmaceutical field. This project focused on preparing O/W emulsions stabilized with polymers for pharmaceuticals such as polysaccharides, proteins and poloxamers, including hydroxypropyl methylcellulose (HPMC), methylcellulose (MC),gelatin, poloxamer 407 (F127) and poloxamer 188 (F68). Emulsion physical stability was assessed by centrifugation, autoclaving sterilization and droplet size measurements. The stabilization mechanisms of emulsions were determined by interfacial tension and rheological measurements. Results stated that the efficacy of these polymers for pharmaceuticals stabilized emulsions was sorted in the order: F127 > F68 > HPMC > MC > Gelatin.展开更多
文摘Non-aqueous emulsions have a wide range of applications in cosmetics,drug-controlled release,and the preparation of functional nanoparticles.However,due to the weaker polarity of non-aqueous solvents,these emulsions often exhibit inferior stability compared to their aqueous counterparts.In this experiment,the properties of quaternary ammonium surfactants in glycerol were investigated through surface tension measurements,to further enhance the stability of n-decane/glycerol emulsions,hydrophilic nanoparticles SiO_(2) were modified in situ using double tailed quaternary ammonium surfactants Di-C_(12)DAB and Di-C_(16)DAB.Stable n-decane/glycerol Pickering emulsions were successfully prepared.These emulsions were stable at 45℃for over six months,and no significant changes in droplet size occurred.The minimum droplet size of the emulsion was only 2-3μm.Contact angle measurements showed that the wettability of the silica surface was tremendously affected by the concentration and the alkyl chain length of the double-tailed surfactants.In the presence of Di-C_(12)DAB,the contact angle of glycerol on the silica surface increased monotonically with the surfactant concentration.This explains the phenomenon that the Pickering emulsions containing Di-C_(12)DAB and silica particles were stable within the contact angle range of 80°-120°.Comparatively,the contact angle of the glycerol on the silica surface in the presence of Di-C_(16)DAB first increased with surfactant concentrations and then decreased,reaching a maximum at 0.6 mmol/L.It can be concluded that Di-C_(12)DAB formed monolayers at the surface of silica particles within all investigated concentrations.On the contrary,Di-C_(16)DAB formed monolayers at concentrations below 0.6 mmol/L and formed double layers at concentrations above 0.6 mmol/L,leading to a non-monotonic change in the contact angle with respect to concentration.Using these stable non-aqueous Pickering emulsions as templates,polymer microspheres with a particle size of 2-3μm were successfully prepared with high yield.This work is helpful to expand the potential applications of non-aqueous emulsions in the encapsulation of drug,controlled release,material preparation,and cosmetic formulations.
基金financial support from the National Natural Science Foundation of China(22278027)the Beijing Natural Science Foundation(2232013)。
文摘Practical application of carvacrol in different fields including foods and biopesticides has been limited due to its instability and water insolubility.In this work,carvacrol encapsulated Pickering emulsion is developed by using polymeric Janus nanoparticles as the stabilizer.To achieve this,dumbbell-shaped polymeric nanoparticles composed of two spheres of shellac and polylactic acid(PLA)are firstly prepared via co-precipitation in a rotating packed bed reactor,followed by grafting of chitooligosaccharides(COS)onto shellac to synthesis amphiphilic Janus nanoparticles(PLA/shellac-COS).Pickering emulsions with typical oil-in-water,bi-continuous structure and water-in-oil characteristics are produced by configuring carvacrol emulsions with different oil-to-water ratios.The stability of emulsions with 5%carvacrol content stabilized by 0.5% PLA/shellac-COS nanoparticles were more stable when compared to those prepared by shellac nanoparticles and PLA/shellac nanoparticles.After stored for one month,the carvacrol encapsulated Pickering emulsions maintained a high zeta potential of-43.8 mV,with no significant changes in particle size.These preliminary studies illustrated that polymeric Janus nanoparticles synthesized by co-precipitation in a rotating packed bed are promising particles for Pickering emulsions and related work in the future.
文摘W/O/W multi-structure emulsions were prepared by two-step method,to investigate the effect of different W/O emulsifier,anionic emulsifier as well as the first phase volume ratio on the formation and stability of multi-structure emulsions.The result indicated that ES-5300 is efficient in forming the homogeneous and stable W/O/W multi-structure emulsions which related to the emulsifier structure and low HLB value.Compared with other anionic emulsifier,sodium isostearoyl lactylate can product more stable multi-structure emulsions.However,the higher temperature stability was affected by the increasing of it.In addition,appropriate first phase volume ratio is critical to the stability of multi-structure emulsions.The multi-structure emulsions with better encapsulation efficiency and great performance in higher temperature was achieved when the first phase volume ratio equal to 1.
基金financially supported by the National Natural Science Foundation of China(Nos.21674127,21422407 and 51373197)
文摘Complex emulsions,such as double emulsions and high-internal-phase emulsions,have shown great applications in the fields of drug delivery,sensing,catalysis,oil-water separation and self-healing materials.Their controllable preparation is at the forefront of interface and material science.Surfactants and polymers have been widely used as emulsifiers for building complex emulsions.Yet some inherent disadvantages exist including multi-step emulsifications and low production efficiency.Alternatively,supramolecular polymer emulsifier for complex emulsions via one-step emulsification is rising as a new strategy due to the ease of preparation.In this feature article,we review our recent progresses in using supramolecular polymer emulsifiers for the preparation of complex emulsions.Double emulsions and high-internal-phase emulsions are successfully prepared via one-step emulsification with the help of different supramolecular interactions including electrostatic,hydrogen bond,coordination interaction and dynamic covalent bond,which will be particularly emphasized in detail.In the end,a comprehensive prospect is given for the future development of this field.This article is expected to provide new inspirations for preparing complex emulsions via supramolecular routes.
文摘Naturally degradable capsule provides a platform for sustained fragrance release.However,practical challenges such as low encapsulation efficiency and difficulty in sustained release are still limited in using fragranceloaded capsules.In this work,the natural materials sodium alginate and gelatine are dissolved and act as the aqueous phase,lavender is dissolved in caprylic/capric triglyceride(GTCC)as the oil phase,and SiO_(2) nanoparticles with neutralwettability as a solid emulsifier to form O/W Pickering emulsions simultaneously.Finally,multi-core capsules are prepared using the drop injection method with emulsions as templates.The results show that the capsules have been successfully prepared with a spherical morphology and multi-core structure,and the encapsulation rate of multi-core capsules can reach up to 99.6%.In addition,the multi-core capsules possess desirable sustained release performance,the cumulative sustained release rate of fragrance at 25℃over 49 days is only 32.5%.It is attributed to the significant protection of multi-core structure,Pickering emulsion nanoparticle membranes,and hydrogel network shell for encapsulated fragrance.This study is designed to deliver a new strategy for using sustained-release technology with fragrance in food,cosmetics,textiles,and other fields.
文摘The stability of acid-crude oil emulsion poses manifold issues in the oil industry.Experimentally evaluating this phenomenon may be costly and time-consuming.In contrast,machine learning models have proven effective in predicting and evaluating various phenomena.This research is the first of its kind to assess the stability of acid-crude oil emulsion,employing various classification machine learning models.For this purpose,a data set consisting of 249 experimental data points belonging to 11 different crude oil samples was collected.Three tree-based models,namely decision tree(DT),random forest(RF),and categorical boosting(CatBoost),as well as three artificial neural network models,namely radial basis function(RBF),multi-layer perceptron(MLP) and convolutional neural network(CNN),were developed based on the properties of crude oil,acid,and protective additive.The CatBoost model obtained the highest accuracy with 0.9687,followed closely by the CNN model with 0.9673.In addition,confusion matrix findings showed the superiority of the CatBoost model.Finally,by applying the SHapley Additive exPlanations(SHAP) method to analyze the impact of input parameters,it was found that the crude oil viscosity has the most significant effect on the model's output with the mean absolute SHAP value of 0.88.
基金supported by National Natural Science Foundation of China(32202235)。
文摘As a natural oil-soluble emulsifier to replace Polyglycerol Polyricinoleate(PGPR),lecithin's application in double emulsions(DEs)remains constrained due to low encapsulation efficiency and stability,while incorporating Pickering particles within the inner aqueous phase(W_(1))has emerged as an effective approach to enhance DEs stability.However,the interfacial interactions between Pickering particles in W_(1) and lecithin in oil phase and their effects on the physical,delivery and digestion properties of DEs remain to be explored.In this study,a natural Pickering DEs encapsulating blueberry anthocyanins(ANCs)was developed using lecithin and gliadinbased particles,with gliadin colloid particles(GCPs)introduced into W_(1).The effects of GCP concentration in W_(1) on emulsion droplet size,microstructure,W_(1)/O interfacial rheology,in vitro digestion,and ANCs delivery performance were systematically investigated.Results showed that GCPs in W_(1) accelerated the decreasing of W_(1)/O interfacial tension,indicating that,beyond competitive adsorption,combination between the two might also occur at the interface,which could accelerate the interfacial adsorption of lecithin.GCPs significantly improved the strength of the W_(1)/O interface,thus improving ANCs encapsulation efficiency from 49.66%to 70.60%.Moreover,the droplet size of DEs decreased from 38.94μm to 24.09μm as GCPs concentration increased,indicating that some GCPs might transfer to the outer aqueous phase through phase exchange,acting as hydrophilic emulsifiers.GCPs in W_(1) can modulate ANCs in vitro release,enhancing ANCs'bioaccessibility(31.10%)and antioxidant capacity.
基金financially supported by the High-level talent research start-up project of Chongqing Technology and Business University(No.2356007)the Science and Technology Research Program of Chongqing Municipal Education Commission(No.KJQN202400809)Special Project for Performance Incentive and Guidance of Research Institutions in Chongqing(No.CSTB2023JXJL-YFX0030)。
文摘Herein,a recrystallization approach was used to produce anhydrous sodium sulfate(ASS)microparticles,which are highly efficient and reusable for separating surfactant-stabilized water from water-in-oil emulsions.The ASS microparticles exhibit distinct morphologies and crystal structures.Remarkably,0.1 g of ASS170 enables the separation of 10 m L of emulsion(water content:0.1 g)with a high separation efficiency of 98.63%.A stepwise separation mechanism,including demulsification and water immobilization in the crystal lattice of ASS,is proposed.The superhydrophilicity of ASS particles enables tiny water droplets to aggregate and merge into larger droplets on their surfaces.This process facilitates the phase transition from ASS to sodium sulfate decahydrate(SSD),during which water molecules are immobilized in the expanded crystal lattice of ASS.SSD particles can be collected to regenerate ASS,retaining the high performance of the original ASS.This unique renewable feature reduces the cost of utilizing ASS and simultaneously prevents secondary pollution.Further economic evaluation reveals that it only costs 66.51USD/m3to purify emulsion with a water content of 10 g/L,significantly lower than previously reported materials.Coupled with a facile and environmentally friendly preparation strategy,this method shows great application potential for water-in-oil emulsion separation and oil purification.
文摘This study prepared and characterized amphiphilic carboxymethyl cellulose stearate(CMCS)recycled from sugarcane bagasse agro-waste(SB).The Fourier-transform infrared(FTIR)analysis confirmed cellulose,carboxymethyl cellulose(CMC),and CMCS structures,with CMCS showing increased H-bonding.X-ray diffraction analysis(XRD)revealed reduced crystallinity in CMC and CMCS.CMCS exhibited a hydrophobic nature but dispersed in water,enabling nanoemulsion formation.Optimal nanoemulsion was achieved with CMCS1,showing a particle size of 99 nm.Transmission electron microscopy(TEM)images revealed CMC’s honeycomb structure,transforming into spherical particles in CMCS1.Antimicrobial tests demonstrated strong activity of CMCS formulations against Escherichia coli and Staphylococcus aureus,with CMCS3 exhibiting the highest efficacy.These findings highlight the potential of CMCS-based nanoemulsions for antimicrobial applications and nanoemulsification.
基金supported by the Natural Science Foundation of Shandong Province(ZR2021ME007)the National Natural Science Foundation in China(51574267)the Key Projects of China National Key Research and Development Plan(2019YFA0708703)。
文摘During oil displacement,surfactants often encounter challenges such as emulsion instability and channeling,which can compromise their efficiency.To address these issues,polymer microspheres were synthesized via reverse microemulsion polymerization using acrylamide,2-methyl-2-acrylamidopropane sulfonic acid,and stearyl methacrylate as monomers,with N,N-methylenebisacrylamide as the crosslinker.The microspheres were then combined with sodium alkyl alcohol polyoxyethylene ether carboxylate to enhance emulsion stability and expand the swept volume of surfactant.A stable reverse microemulsion system was prepared using the maximum water solubilization rate as the indicator,and microspheres were synthesized based on this system.The ability of the microspheres to enhance emulsion stability was systematically evaluated.The plugging performance and enhanced oil recovery(EOR)efficiency of the microsphere/surfactant composite system were assessed through core seepage and oil displacement experiments.The experimental results demonstrated that microspheres were successfully prepared in a water-in-oil reverse microemulsion system with a solubilization rate of 42%.The emulsion stability was evaluated under an oil-to-water ratio of 7:3,a temperature of 80℃,and a salinity of 44,592 mg/L,by manually shaking the test tube five times.It was observed that the complete phase separation time of the emulsion increased from 10 to 120 min after the addition of microspheres.Under different permeability conditions(100×10^(-3),300×10^(-3),500×10^(-3)μm^(2)),the recovery efficiency of the composite system increased by 4.5%,8.3%,and 4.8%,respectively,compared to a single surfactant system.The microspheres developed in this study enhanced emulsion stability and increased the swept volume of surfactant within the formation,significantly boosting its oil recovery efficiency.
基金supported by the National Natural Science Foundation of China(No.42402319,51704266)the Anhui Provincial Natural Science Foundation(No.2308085QE151)+3 种基金the Natural Science Research Project of Anhui Educational Committee(No.2023AH051222)Young Talent Nurturing Program of Anhui Association For Science and Technology(No.RCTJ202403)the Open Foundation of the Innovation Base of Fine Mine Prospecting and Intelligent Monitoring Technology(No.2023-MPIM-01)partly supported by the Open Fund of Engineering Research Center of Rock-Soil Drilling&Excavation and Protection(No.202407).
文摘The stability of oil-dominated emulsions,including oil-based drilling fluids and crude oils,is crucial for mitigating gas hydrate risks in the petroleum and natural gas industries.Nanoparticles can stabilize oilwater systems(Pickering emulsions)by residing at the oil-water interface.However,their effects on the kinetics of hydrate formation in these systems remain unclear.To address this,we experimentally investigated how hydrophilic and hydrophobic nano-CaCO_(3) influence CH4 hydrate formation within dynamic oil-water systems.A series of hydrate formation experiments were conducted with varying water cuts and different concentrations of nano-CaCO_(3) at a particle size of 20 nm,under 3℃ and 6 MPa.The induction time,hydrate formation volume,and hydrate growth rate were measured and calculated.The results indicate that hydrophilic nano-CaCO_(3) generally inhibits hydrate formation,particularly at high water cuts,while hydrophobic nano-CaCO_(3) can significantly inhibit or even prevent hydrate formation at low water cuts.Water cut strongly influences the kinetics of hydrate formation,and nanoparticle concentration also impacts the results,likely due to changes in oil-water interface stability caused by nanoparticle distribution.This study will offer valuable insights for designing deepwater oilbased drilling fluids using nanoparticles and ensuring safe multiphase flow in deepwater oil and gas operations.
基金sponsored jointly by the National Key Basic Research Program of China(No.2013CB328706)the Special-funded Program on National Key Scientific Instruments and Equipment Development(No.2012YQ140005)+1 种基金the Beijing National Science Foundation(No.4122064)the Science Foundation of China University of Petroleum(Beijing)(No.QZDX-2010-01 and KYJJ2012-06-27)
文摘We measured the water content (0.01% 0.25% w/w) in crude oil emulsions using terahertz time-domain spectroscopy (THz-TDS). To improve the precision and range of the measurements, we used 1 and 10 mm thick quartz cells. The experiments were performed at 20 ℃ and the THz wave was transmitted vertically to the samples and detected on the other side. The experimental results suggest linear relation for the THz absorption coefficient and the water content of the crude oil emulsions in the observed range. The linear dependence facilitates high-precision measurements of the water content of crude oil. This suggests the potential of THz-TDS in determining the water concentration in crude oil and borehole fluid identification.
文摘The functional fractions (acid, basic, amphoteric and neutral fractions) are isolated from the Liaohe Du-84 heavy crude oil and Shengli Gudao Kenxi heavy crude oil by ion-exchange chromatography, but the conventional fractions (saturates, aromatics, resins and asphaltenes) are also isolated from the heavy crude oil. These components have been characterized by spectroscopic methods (FT-IR), namely acid number, basic nitrogen number, ultimate analysis and molecular weight measurements using vapor pressure osmometry (VPO). The ion-exchange chromatography method based on separation by a functional group induces a little change on the nature of the crudes and reasonable mass balances can be easily obtained.
文摘In recent years,Pickering emulsions and their applications have attracted a great deal of attention due to their special features,which include easy preparation and enhanced stability.In contrast to classical emulsions,in Pickering emulsions,solid microparticles or nanoparticles that localize at the interface between liquids are used as stabilizers,instead of surfactants,to enhance the droplet lifetime.Furthermore,Pickering emulsions show higher stability,lower toxicity,and stimuli-responsiveness,compared with emulsions that are stabilized by surfactants.Therefore,they can be considered attractive components for various uses,such as photocatalysis and the preparation of new materials.Moreover,the nanoparticle morphology strongly influences Pickering emulsion stability as well as the potential utilization of such emulsions.Here,we review recent findings concerning Pickering emulsions,with a particular focus on how the nanoparticles morphology(i.e.,cube,ellipsoid,nanosheet,sphere,cylinder,rod,peanut)influences the type and stability of such emulsions,and their current applications in different fields such as antibacterial activity,protein recognition,catalysis,photocatalysis,and water purification.
基金Supported by the Program for New Century Excellent Talents in University(NCET-08-0204) National Natural Science Foundation of China(20976060) the Scientific Research Foundation for the Returned Overseas Chinese Scholars State Edu-cation Ministry (China)
文摘A novel polymer/SiO2 hybrid emulsion(PAES)was prepared by directly mixing colloidal silica with polyacrylate emulsion(PAE)modified by a saline coupling agent.The sol-gel-derived thin films were obtained by addition of co-solvents into the PAES.The effects ofγ-methacryloxypropyltrimethoxysilane(KH-570)content and co-solvent on the properties of PAES films were investigated.Dynamic laser scattering(DLS)data indicate that the average diameter of PAES(96 nm)is slightly larger than that of PAE(89 nm).Transmission electron microscopy (TEM)photo discloses that colloidal silica particles are dispersed uniformly around polyacrylate particles and some of the colloidal silica particles are adsorbed on the surface of PAE particles.The crosslinking degree data and Fourier transform infrared(FT-IR)spectra confirm that the chemical structure of the PAES is changed to form Si-O-Si-polymer crosslinking networks during the film formation.Atomic force microscope(AFM)photos show the solvent induced sol-gel process of colloidal silica and the Si-based polymer distribution on the film surface of the dried PAES.Thermogravimetric analysis(TGA)curves demonstrate that the PAES films display much better thermal stability than PAE.
基金financially supported by the Research and Development Institute, Silpakorn University
文摘The aim of this study was to investigate the effect of high-pressure homogenization on the droplet size and physical stability of different formulations of pectin–zein stabilized rice bran oil emulsions. The obtained emulsions, both before and after passing through highpressure homogenizer, were subjected to stability test under environmental stress conditions,that is, temperature cycling at 4 °C/40 °C for 6 cycles and centrifugal test at 3000 rpm for 10 min. Applying high-pressure homogenization after mechanical homogenization caused only a small additional decrease in emulsion droplet size. The droplet size of emulsions was influenced by the type of pectin used;emulsions using high methoxy pectin(HMP) were smaller than that using low methoxy pectin(LMP). This is due to a greater emulsifying property of HMP than LMP. The emulsions stabilized by HMP–zein showed good physical stability with lower percent creaming index than those using LMP, both before and after passing through high-pressure homogenizer. The stability of emulsions after passing through high-pressure homogenizer was slightly higher when using higher zein concentration, resulting from stronger pectin–zein complexes that could rearrange and adsorb onto the emulsion droplets.
基金financially supported by the National Natural Science Foundation of China(Nos.81872826,81573363,81690263)Science and Technology Commission of Shanghai Municipality(No.18ZR1404100)Shanghai Pujiang Program(No.18PJD001)。
文摘The discrimination against nutritional fat emulsion injections was considered by imaging tools,which aims to elucidate the in vivo behaviors of nanoemulsions.In this study,20%nutritional fat emulsion injections were selected from different company including original and generic products.Meanwhile,a water quenching fluorescent probe(P2)was used to label them by an incubation method.The fluorescent intensity analysis of blood-borne fluorescence reveals rapid clearance of nanoemulsion in all groups,which shows'L'-type blood kinetic profiles.However,these kinetic parameters do not have significant difference.Following intravenous administration,the nanoemulsions in all groups concomitantly accumulated in organs of reticulo-endothelial system(RES),such as liver and spleen,and were cleared from body circulation mostly after 12 h.AUC(0-t)of organs from different groups showed dissimilar results in some organs.These intuitional results are of significance in understa nding the in vivo behaviors of nanoemulsions,which can provide a new way to discriminate against nutritional fat emulsions.
文摘A series of polyacrylate emulsions were blended with tackifier resin emulsions such as modified rosin emulsion, C5 resin and C9 resin emulsion. The miscibility of the polyacrylates and tackifier resins was investigated by means of SEM and visual observation. The phase diagrams of the miscibility change systematically with the polarity of polyacrylates and tackifier resins. The influence of the content of the tackifier resins on the adhesion properties of the; polyacrylate emulsions were also studied. The results show that the 180 degrees C peel strength is improved as the amount of the tackifier resin increases and comes to a maximum at a specific content. The ball tack property decreases slightly and the hold strength changes complicatedly as the tackifier resin increases.
基金financially supported by The University of Information Technology and Management in Rzeszow as part of the project“Plant extracts as an innovative,multi-functional cosmetic raw materials”
文摘Dogwood fruits are a valuable source of active ingredients, such as phenolic compounds, vitamin C, iridoids, flavonoids and anthocyanins. Plant extracts and substances derived from latin Cornus mas L. exhibit not only strong antibacterial but also antioxidant and tonicity properties, effectively preventing the development of inflammation in living organisms. In the present study, we attempted to obtain the innovative, multi-functional plant extract from the fruit of dogwood(Cornus mas L.). During the extraction process a mixture of water, glycerol, and vegetable oil were used as an extractant. The usage of such mixtures of solvents enabled us to extract a variety of active substances, soluble in both water and oils. The obtained extracts were analyzed for their physicochemical and biochemical properties, in order to apply the extract in a body nutrient lotion. The results clearly showed that such extract could be an innovative and multi-functional raw material used in cosmetics industry.
基金supported by the National Natural Science Foundation of China (No.81273445 and No.81473161)
文摘Macromolecules of polysaccharides, proteins and poloxamers have a hydrophobic portion and a hydrophilic one that can be used as emulsifiers. Parts of these emulsifiers are safe pharmaceutical excipients, which can replace the irritant low molecular weight surfactants to formulate emulsions for the pharmaceutical field. This project focused on preparing O/W emulsions stabilized with polymers for pharmaceuticals such as polysaccharides, proteins and poloxamers, including hydroxypropyl methylcellulose (HPMC), methylcellulose (MC),gelatin, poloxamer 407 (F127) and poloxamer 188 (F68). Emulsion physical stability was assessed by centrifugation, autoclaving sterilization and droplet size measurements. The stabilization mechanisms of emulsions were determined by interfacial tension and rheological measurements. Results stated that the efficacy of these polymers for pharmaceuticals stabilized emulsions was sorted in the order: F127 > F68 > HPMC > MC > Gelatin.
