Fluorosurfactants play a crucial role in ensuring the stability and uniformity of droplet microreactors,which significantly broaden their applications in chemical and biological research.This review covers structure d...Fluorosurfactants play a crucial role in ensuring the stability and uniformity of droplet microreactors,which significantly broaden their applications in chemical and biological research.This review covers structure diversity and functional versatility of fluorosurfactants.Fluorosurfactants can be divided into two basic types according to their structure,linear and dendritic types,which both provides individual advantages.Linear fluorosurfactants are easily synthesized and commercially available,whereas dendritic fluorosurfactants have a branched structure that greatly reduces molecular cross-talk between droplets.Based on the application point of view,fluorosurfactants can be further classified into two categories:reactive and responsive fluorosurfactants.The hydrophilic head of reactive fluorosurfactants contains a reactive functional group,making them very useful in other applications,such as microcapsule preparation or protein crystallization.In contrast,responsive fluorosurfactants would change their properties with respect to external stimuli,such as temperature or light,making them perfect candidates for the on-demand control of droplet behavior.Development of these new classes of fluorosurfactants has expanded the capabilities and applications of droplet microreactors that enables interdisciplinary challenges to be solved.展开更多
Surfactant-based oil recovery processes are employed to lower the interfacial tension in immiscible displacement processes,change the wettability of rock to a more water-wet system and emulsify the oil to displace it ...Surfactant-based oil recovery processes are employed to lower the interfacial tension in immiscible displacement processes,change the wettability of rock to a more water-wet system and emulsify the oil to displace it in subsurface porous media.Furthermore,these phenomena can reduce the capillary pressure and enhance spontaneous imbibition.The key factors affecting such immiscible displacement process are temperature,salinity and p H of the fluids,surfactant concentration and adsorption.Therefore,before any surfactant flooding process is applied,extensive studies of fluid-fluid and rock-fluid interactions are needed.The use of other chemicals along with surfactants in chemical enhanced oil recovery(c EOR)processes have been widely considered to exploit the synergy of individual chemicals and complement the weakness arises from each of them during immiscible displacement of fluids in porous media.Therefore,such combinations of chemicals lead to alkaline-surfactant(AS),surfactantpolymer(SP),alkaline-surfactant-polymer(ASP),and nanoparticle-surfactant(NS)flooding processes,among others.In this review study,we categorised the role and displacement mechanisms of surfactants and discussed the key factors to be considered for analysing the fluid displacement in porous media.展开更多
In order to explore the mechanism of improving the surface wettability of low-energy polytetrafluoroethylene(PTFE)by new extended surfactants,five kinds of extended anionic surfactants with different numbers of oxypro...In order to explore the mechanism of improving the surface wettability of low-energy polytetrafluoroethylene(PTFE)by new extended surfactants,five kinds of extended anionic surfactants with different numbers of oxypropylene(PO)and oxyethylene(EO),octadecyl-(PO)_(m)-(EO)_(n)-sodium carboxylate(C_(18)PO_(m)EO_(n)C,m=5,10,15,n=5,10,15),were studied.The surface tension and contact angle of C_(18)PO_(m)EO_(n)C solution with different concentrations were measured,and the adhesion tension,PTFE-water interfacial tension,and adhesion work were calculated.It was found that the extended surfactant molecules adsorb on the surface of the solution and the PTFE-liquid interface simultaneously when the concentration is lower than the critical micelle concentration(cmc),and there was a linear relationship between surface tension and adhesion tension.The adsorption amount of C_(18)PO_(m)EO_(n)C at the PTFE-water interface was significantly lower than that on the surface of the solution.As the concentration increases above cmc,semi-micelle aggregates on the surface of PTFE are formed by C_(18)PO_(m)EO_(n)C molecules through hydrophobic interaction,and the hydrophilic group faces the solution to modify the surface of PTFE with high efficiency.展开更多
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
The compound system of polyacrylamide hydrogels and surfactant solutions are used for enhanced oil recovery(EOR).The polyacrylamide hydrogels are injected into block high-permeability zones firstly,followed by a low-c...The compound system of polyacrylamide hydrogels and surfactant solutions are used for enhanced oil recovery(EOR).The polyacrylamide hydrogels are injected into block high-permeability zones firstly,followed by a low-cost sacrificial agent,then an oil-displacing surfactant,and finally an aqueous polymer solution containing diethanolamine,to enhance oil production.The hydrogels are selected through oscillatory rheometry,while the surfactant is optimized after optical imaging analysis.The EOR performance of the compound system is evaluated through core flooding experiments and reservoir numerical simulation.Specifically,the properly cross-linked polyacrylamide hydrogel can be selected using its elastic modulus as a quantitative parameter while accounting for pore structure.The sacrificial agent is used to block active adsorption sites in the rock matrix before mobilizing more crude oil with a nonionic-anionic surfactant system.The addition of the mild organic alkali(diethanolamine)into the polymer slug reduces surfactant adsorption and improves sweep efficiency,thereby enhancing the oil-washing effect.Flooding experimental results show that the sequential injection of hydrogel and surfactant compositions prolongs the period of increasing pressure gradient during subsequent waterflooding and significantly boosts oil production,achieving a 21-percentage-point increase in oil displacement efficiency.Numerical simulation for the target reservoir in the West Siberian oil province confirms the effectiveness,projecting a maximum cumulative oil increase of 6851 t over three years.展开更多
Posaconazole(PCZ)is a broad-spectrum anti-fungal drug approved by FDA and currently used off-label for the treatment of fungal keratitis(FK).Although ocular route serves as the most bioavailable route for treating FK,...Posaconazole(PCZ)is a broad-spectrum anti-fungal drug approved by FDA and currently used off-label for the treatment of fungal keratitis(FK).Although ocular route serves as the most bioavailable route for treating FK,delivery of PCZ to the eye remains a challenge due to poor permeation though the cornea and rapid elimination from the eye.Here we outline a comprehensive formulation development process,beginning with in silico studies,progressing through in vitro evaluations,and ultimately achieving therapeutic benefits in vivo.We report modified niosome-like surfactant vesicles,hereafter termed as NioTherms,formulated using a novel and simple heat-mix method,encapsulating PCZ for ocular administration in the form of an in situ gel.Excipient screening performed using in silico simulations highly correlate with in vitro studies(R^(2)=0.77),guiding optimization by Quality by Design(QbD)approach for encapsulating PCZ in NioTherms resulting in particles with an average size of 180.7±2.3 nm,zeta potential of +27.5±2.2 mV and entrapment efficiency of 87.6%±1.7%.A 2-fold increase in both mucin binding and cellular uptake indicates a functional role of positive surface charge in enhancingmucoadhesive properties of PCZ-NioTherms.In an in vivo murine ocular keratitis model,we demonstrate a 2-fold enhancement in trans-corneal permeability of PCZ-NioTherms and a 3-fold reduction in fungal burden compared to the control standard of care,the PCZ solution.Owing to a facile formulation process,we anticipate that PCZ-NioTherms would serve as a clinically translatable and patient compliant therapeutic intervention for treating FK.展开更多
From April 21st to 23rd,the 2025 China Surfactant Industry Conference was successfully held in Hangzhou.The conference was hosted by China Research Institute of Daily Chemical,and the National Engineering Research Cen...From April 21st to 23rd,the 2025 China Surfactant Industry Conference was successfully held in Hangzhou.The conference was hosted by China Research Institute of Daily Chemical,and the National Engineering Research Center for Surfactant,undertaken by the National Productivity Promotion Center for Surfactant and Detergent Industry and the China Daily Chemical Industry Information Center,specially co-organized by Zanyu Technology Group Co.,Ltd,and jointly co-organized by the China Surface Active Agent Industry Alliance (SAA),the Malaysian Palm Oil Board (MPOB),the Roundtable on Sustainable Palm Oil (RSPO),and the American Oil Chemists’ Society (AOCS).展开更多
This paper summarizes the mechanisms and environmental effects of interactions between microplastics and surfactants: surfactants adsorb onto microplastics surfaces through hydrophobic interactions and electrostatic f...This paper summarizes the mechanisms and environmental effects of interactions between microplastics and surfactants: surfactants adsorb onto microplastics surfaces through hydrophobic interactions and electrostatic forces, changing their surface properties and transport behavior. In addition, microplastics act as carriers influencing surfactant distribution. Environmental factors (pH, ionic strength, etc. ) significantly regulate this process. Current research still has limitations in areas such as desorption kinetics and combined pollution effects, necessitating in-depth studies under environmentally relevant conditions to provide a basis for risk assessment.展开更多
Using sodium laureth sulfate(AES)as reference,the effects of different pH values on the foam properties of four amino acid surfactants(sodium lauroyl sarcosinate,lauroyl alanine,disodium cocoyl glutamate,sodium methyl...Using sodium laureth sulfate(AES)as reference,the effects of different pH values on the foam properties of four amino acid surfactants(sodium lauroyl sarcosinate,lauroyl alanine,disodium cocoyl glutamate,sodium methyl cocoyl taurate)were compared.On the basis,the effects of amino acid surfactants on foam performance,flocculation behavior,hair color protection efficacy and sebum removal capacity were studied when AES was completely or partially replaced by amino acid surfactant,and the correlation between the structure of amino acid surfactant and these properties was discussed.Compared with AES,the foam performance of sodium lauroyl sarcosinate,lauroyl alanine and disodium cocoyl glutamate were significantly affected by pH value,and sodium methyl cocoyl taurate was less affected.The foam stability of shampoo system can be enhanced by the combination of amino acid surfactant,and the foam performance of shampoo system can be significantly improved by the combination of sodium methyl cocoyl taurate.All the four amino acid surfactants can prolong the flocculation time of shampoo,and the effect of disodium cocoyl glutamate was the most obvious.The hair color protection efficacy of disodium cocoyl glutamate and sodium methyl cocoyl taurate were better than AES.The degreasing power of disodium cocoyl glutamate was weaker than that of AES,and the degreasing power of sodium lauroyl sarcosinate,lauroyl alanine and sodium methyl cocoyl taurate were stronger than that of AES.展开更多
From April 21 to 23,2025,the “2025 China Surfactant Industry Alliance(SAA)” was successfully held in Hangzhou,sponsored by the China Research Institute of Daily Chemical and the National Engineering Research Center ...From April 21 to 23,2025,the “2025 China Surfactant Industry Alliance(SAA)” was successfully held in Hangzhou,sponsored by the China Research Institute of Daily Chemical and the National Engineering Research Center for Surfactants,undertaken by the Productivity Promotion Center of the Surfactant and Detergent Industry and the China National Daily Chemical Industry Information Center,specially assisted by Zanyu Technology Group Co.,Ltd.,and co organized by the China Surfactant Industry Alliance(SAA),the Malaysian Palm Oil Board(MPOB),the Roundtable on Sustainable Palm Oil(RSPO),and the American Oil Chemists' Society(AOCS).展开更多
Objective Recent studies have overturned the traditional concept of the lung as a “sterile organ” revealing that pulmonary microbiota dysbiosis and abnormal surfactant proteins(SPs) expression are involved in the pr...Objective Recent studies have overturned the traditional concept of the lung as a “sterile organ” revealing that pulmonary microbiota dysbiosis and abnormal surfactant proteins(SPs) expression are involved in the progression of silicosis. This study aimed to investigate the relationship between abnormal SPs expression and dysbiosis of lung microbiota in silica-induced lung fibrosis, providing insights into mechanisms of silicosis.Methods Lung pathology, SPs expression, and microbiota composition were evaluated in silicaexposed mice. A mouse model of antibiotic-induced microbiota depletion was established, and alveolar structure and SPs expression were assessed. The roles of the lung microbiota and SPs in silicosis progression were further evaluated in mice with antibiotic-induced microbiota depletion, both with and without silica exposure.Results Silica exposure induced lung inflammation and fibrosis, along with increased expression of SPA expression. Antibiotics(Abx)-induced microbiota depletion elevated SP-A and SP-D expression.Furthermore, silica exposure altered lung microbiota composition, enriching potentially pathogenic taxa.However, antibiotic-induced microbiota depletion prior to silica exposure reduced silica-mediated lung fibrosis and inflammation.Conclusion Lung microbiota is associated with silica-induced lung injury. Overproduction of SP-A and SP-D, induced by Abx-induced microbiota depletion, may enhance the resistance of mouse lung tissue to silica-induced injury.展开更多
In modern engineering,enhancing boiling heat transfer efficiency is crucial for optimizing energy use and several industrial processes involving different types of materials.This study explores the enhancement of pool...In modern engineering,enhancing boiling heat transfer efficiency is crucial for optimizing energy use and several industrial processes involving different types of materials.This study explores the enhancement of pool boiling heat transfer potentially induced by combining perforated copper particles on a heated surface with a sodium dodecyl sulfate(SDS)surfactant in saturated deionized water.Experiments were conducted at standard atmospheric pressure,with heat flux ranging from 20 to 100 kW/m2.The heating surface,positioned below the layer of freely moving copper beads,allowed the particle layer to shift due to liquid convection and steam nucleation.The study reports on the influence of copper bead diameter(2,3,4,and 5 mm),particle quantity,arrangement,and SDS concentration(20,200,and 500 ppm).It is shown that the combination of 5 mm particles and a 500 ppm SDS concentration can yield a remarkable 139%improvement in heat transfer efficiency.As demonstrated by direct flow visualization,bubble formation occurs primarily in the gaps between the particles and the heated surface,with the presence of SDS reducing bubble size and accelerating bubble detachment.展开更多
Surfactant sodium alcohol ether carboxylate(AEC-9Na)was added to the magnesium sulfate solution in order to enhance the leaching efficiency of ionic rare earth ore,and the mechanism of action for AEC-9Na was elucidate...Surfactant sodium alcohol ether carboxylate(AEC-9Na)was added to the magnesium sulfate solution in order to enhance the leaching efficiency of ionic rare earth ore,and the mechanism of action for AEC-9Na was elucidated.Under optimal conditions,the addition of AEC-9Na with a mass fraction of 0.03% can enhance the leaching rate by 5.2% and reduce the leaching cycle.Kinetic analysis demonstrates that the leaching process follows the model of internal diffusion control.The analysis of the mass transfer process reveals that the addition of AEC-9Na results in a decrease in the height equivalent to a theoretical plate(HETP)and an improvement in mass transfer efficiency.The addition of AEC-9Na can reduce the thickness of the water layer adsorbed on particles during leaching,which in turn reduces hydration and facilitates penetration of the leaching solution into ore body pores.This improves mass transfer concentration differences during leaching,and facilitates desorption of rare earth ions.Periodic density functional theory(DFT)calculations show that the adsorption of AEC-9Na onto the surface of kaolinite(001)enhances the hydrophilicity of the mineral surface and improves its permeability efficiency.Simultaneously,AEC-9Na forms complexes with hydrated rare earth ions on the kaolinite(001)surface,thereby reducing their adsorption strength on clay minerals.This promotes the exchange and desorption process of magnesium ions to hydrated rare earth ions,ultimately enhancing the mass transfer process for leaching rare earth elements.展开更多
Surfactants play a critical role in enhanced oil recovery(EOR) applications;however,their performance is often compromised in harsh reservoir conditions,such as high temperature and high salinity,due to precipitation ...Surfactants play a critical role in enhanced oil recovery(EOR) applications;however,their performance is often compromised in harsh reservoir conditions,such as high temperature and high salinity,due to precipitation caused by interactions with multivalent metal ions.Chelating agents were introduced into oilfields for various purposes due to their ability to sequester metal ions.In this work,we conducted a comprehensive investigation about chelating agent-surfactant(CS) flooding for carbonate reservoirs,as an alternative to the well-established alkaline surfactant(AS) flooding used in sandstone.The tested surfactants include sodium dodecyl sulfate(anionic)(SDS),dodecyltrimethylammonium bromide(cationic)(DTAB),Triton X100(nonionic),and a locally synthesized zwitterionic surfactant.The tested chelating agents include diethylenetriaminepentaacetic acid(DTPA),ethylenediaminetetraacetic acid,and glutamic acid N,N-diacetic acid.pH and temperature,as dominant factors in chelating agent solubility and brine stability,were modified to test chelating agent solutions of different concentrations and their mixtures with surfactants.Interfacial tension reduction by chelating agents alone,surfactants alone,and their mixtures were measured.Wettability alteration brought by chelating agents and surfactants on carbonate rock surfaces was evaluated using the static contact angle method.Based on the obtained results,chelating agents can be applied as low-cost additives for surfactant stabilization in high salinity conditions.The addition of chelating agents significantly improved the stability of SDS and DTAB in salt solutions and seawater.At a relatively low concentration(0.25 wt%),DTPA was able to stabilize DTAB of 1.00 wt% in seawater at high temperature(90℃).DTPA,among the tested three chelating agents,exhibited a stronger stabilization effect on surfactants of different ion types.When chelating agents are to be applied in brine,an optimal applicable pH range of 5-9 is recommended so not to induce solubility issue of chelating agents or stability issues of metal ions.In this range,IFT reduction is more significant at high pH,while wettability alteration is more significant at low pH.The combination of a cationic surfactant with a chelating agent forms a low adsorption wettability modifier which can change strongly oil-wet rock to water-wet conditions,thus significantly increasing the residual oil recovery from oil-wet carbonate formations.Zwitterionic and nonionic surfactants are also applicable to combine with a chelating agent for EOR purposes.Anionic surfactant SDS,however,showed a growing inhibition on the wettability alteration effect induced by EDTA as the concentration of SDS increased.展开更多
The overuse of surfactants has made them well-known environmental pollutants.So far,it is still a challenge to simultaneously distinguish cationic,anionic,zwitterionic,nonionic surfactants and surfactants with similar...The overuse of surfactants has made them well-known environmental pollutants.So far,it is still a challenge to simultaneously distinguish cationic,anionic,zwitterionic,nonionic surfactants and surfactants with similar structures based on traditional analytical techniques.We developed a high-throughput method for distinguishing various surfactants based on the adaptive emission profile as fingerprints(AEPF).The fluorescence response of the sensor was based on the interaction between surfactants and 1,3-diacetylpyrene(o-DAP)probe.The interaction affected the reversible conversion of free molecules and two aggregates in the solution,thereby changing the relative abundance and the fluorescence intensity ratio of two aggregates emitting different fluorescence.The o-DAP sensor can distinguish four types of surfactants(16 surfactants),especially surfactants of the same type with similar structures.The o-DAP sensor sensitively determined the critical micelle concentration(CMC)of 16 surfactants based on the interaction between o-DAP and surfactants.Additionally,the o-DAP sensor can detect and distinguish artificial vesicles made from different surfactants.展开更多
Background Persistent pulmonary hypertension(PPHN)of the newborn is one of the major contributors to neonatal mortality.Current conventional treatments for PPHN primarily encompass mechanical ventilation,inhaled nitri...Background Persistent pulmonary hypertension(PPHN)of the newborn is one of the major contributors to neonatal mortality.Current conventional treatments for PPHN primarily encompass mechanical ventilation,inhaled nitric oxide(iNO),sildenafil,and magnesium sulfate.In confirmed cases of neonatal respiratory distress syndrome,pulmonary surfactant(PS)can be considered as a potential treatment option;However,the optimal dosage and administration frequency of PS remain subjects of ongoing debate.This study aimed to assess the efficacy of early repeated endotracheal PS administration combined with iNO therapy in the management of newborns with PPHN.Methods Twenty-three neonates with PPHN received iNO alongside foundational treatments,including anti-infection therapy,mechanical ventilation,acidosis correction,and blood pressure stabilization.The observation group(n=13)received endotracheal instillation of PS three times,with each administration spaced six hours apart;The control group(n=10)received endotracheal instillation of PS once.Parameters compared included blood gas indices,oxygenation index(OI),alveolar-arterial oxygen partial pressure difference(PA-aDO,),pulmonary artery systolic pressure(PAP),and N-terminal pro-brain natriuretic peptide(NT-pro-BNP).Mechanical ventilation duration,oxygen therapy time,hospitalization length,and survival outcomes were recorded and compared between groups.Results The blood gas parameters,OI,and PA-aDO,showed no significant differences between the two groups of children before treatment(P>0.05).By 24-hour post-treatment,both groups exhibited significant increases in partial pressure of oxygen(PaO,)and potential of hydrogen(PH)levels,alongside significant decreases in lactate,partial pressure of carbon dioxide(PaCO,),OI,and PA-aDO2,with statistically significant differences(P<0.05).By 48-hour post-treatment,the observation group demonstrated significantly better improvements in blood gas parameters,OI,and PA-aDO,compared to the control group,and these differences were statistically significant(P<0.05).There was no statistically significant difference in PAP and NT-pro-BNP levels between the two groups before treatment(P>0.05).After treatment,both groups showed significant decreases in PAP and NT-pro-BNP levels(P<0.05),with a more pronounced reduction observed in the observation group(P<0.05).The observation group had significantly shorter durations of mechanical ventilation and oxygen therapy compared to the control group,with statistically significant differences(P<0.05).Additionally,the observation group exhibited a shorter total hospital stay and a lower mortality rate than the control group,though these differences were not statistically significant(P>0.05).Conclusions Early consecutive multiple doses of PS combined with iNO,compared to a single dose,better improves respiratory function indices,maintains stability,reduces pulmonary artery pressure,enhances cardiac function,shortens ventilator dependency,and increases cure rates in PPHN neonates.This approach is particularly suitable for severe PPHN cases,especially those with underlying pulmonary conditions.展开更多
High-molecular-weight partially hydrolyzed polyacrylamide(HPAM)has extensively used in enhanced oil recovery(EOR)process;however,it suffers from poor injectivity into low-permeability oil reservoirs and compromised lo...High-molecular-weight partially hydrolyzed polyacrylamide(HPAM)has extensively used in enhanced oil recovery(EOR)process;however,it suffers from poor injectivity into low-permeability oil reservoirs and compromised long-term thermal stability under reservoir conditions.To address these challenges,a viscoelastic surfactant,3-(N-erucamidopropyl-N,N-dimethyl ammonium)betaine(EDAB),was developed and systematically compared with HPAM.Experimental results demonstrate that EDAB outperforms HPAM in thermal resilience,salt tolerance,and interfacial activity.Unlike HPAM's thermal thinning behavior,EDAB displays thermo-thickening properties,with viscosity rising from 225 to 366 mPa⋅s as temperature increases from 25 to 55℃.EDAB maintains 100% viscosity retention under 80 mg⋅L^(−1) Ca^(2+)or Mg^(2+),whereas HPAM experiences 46%viscosity loss under identical ionic conditions.Core-flooding tests conducted under simulated Daqing oil reservoir conditions indicate that EDAB achieves a 1.4%higher incremental oil recovery factor than HPAM with equal initial solution concentration.When HPAM was employed as a mobility control for pre-or post-flush,EDAB elevates the recovery factor by 13.9%over water flooding.These comparative analyses underscore the potential of EDAB as a thermally stable,salt-insensitive alternative to HPAM,offering an optimized chemical strategy for EOR in challenging reservoir environments.The findings provide empirical validation for surfactant-based solutions to address HPAM's operational constraints in low-permeability formations.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 effects of different kinds of cosurfactants on the properties of the crystalline amino acid cleanser based on potassium cocoyl-glycine were studied by analyzing the foam properties,high-temperature stability and c...The effects of different kinds of cosurfactants on the properties of the crystalline amino acid cleanser based on potassium cocoyl-glycine were studied by analyzing the foam properties,high-temperature stability and crystallization temperature.The results showed that PEG-80 sorbitan laurate makes the composite foaming system slower and less,but the foam stability and high-temperature stability are better.The addition of lauryl hydroxysultaine can make the foaming speed faster and the foam volume larger,and this material can improve the crystallization of potassium cocoyl-glycine,so that the high-temperature stability of the composite system is better.The addition of anionic surfactant like sodium methyl cocoyl taurate or sodium lauroyl glutamate is helpful for foam fineness and foam stability,but may have a negative effect on high-temperature stability.The addition of lauryl glucoside is disadvantage on foam stability and high-temperature stability,so it is not suitable for this system.Cosurfactants can be selected on demand when developing the related products.展开更多
Tailoring functional interfacial layers through molecular design of electrolyte additives has emerged as a prevalent strategy to modulate interfacial reactions and stabilize aqueous zinc-ion batteries(AZIBs).In this w...Tailoring functional interfacial layers through molecular design of electrolyte additives has emerged as a prevalent strategy to modulate interfacial reactions and stabilize aqueous zinc-ion batteries(AZIBs).In this work,the effect of alkyl chain-induced conformation evolution in interfacial layers on stabilizing the zinc anode was systematically studied using linear cationic surfactant additives.Based on the electrochemical tests and COMSOL simulations,these additives expanded the electrochemical stability window of electrolytes and formed zincophilic-hydrophobic interfacial layers on the anode surface,thus suppressing side reactions and blocking water erosion.Moreover,the interfacial layers not only increased the nucleation overpotential of zinc ions,thus alleviating the electrolyte concentration polarization,but also restricted the 2D diffusion of zinc ions on the anode surface,thereby inducing uniform deposition of finer zinc particles and inhibiting dendrite growth.Furthermore,theoretical calculations revealed that va rying alkyl chain lengths in cationic surfactants and their adsorption configurations resulted in different interfacial layer thicknesses.Especially the dodecyltrimethylammonium chloride(DTAC),the dodecyl group provided a robust hydrophobic layer,effectively stabilizing the zinc anode.And the Zn‖Zn cell with ZSO-DTAC electrolyte achieved a long lifespan of 2000 h at 1 mA cm^(-2),the Zn‖Cu cell exhibited an excellent Coulombic efficiency of 99.69%at 2 mA cm^(-2).In addition,the Zn‖MnO_(2) full cell delivered an initial capacity of 149.44 mA h g^(-1)at 5 A g^(-1),with 83.02%capacity retention after 2000cycles.This work provided fundamental insights into modulating interfacial conformations and reactions to stabilize zinc anodes by surfactant-type additives,offering practical guidance for electrolyte optimization in high-performance AZIBs.展开更多
基金support of the National Key Research and Development Program of China(2021YFC2104300)the National Natural Science Foundation of China(T2322011,22308146,22278214)the support of the State Key Laboratory of Materials-Oriented Chemical Engineering(SKL-MCE-22A06,KL20-02).
文摘Fluorosurfactants play a crucial role in ensuring the stability and uniformity of droplet microreactors,which significantly broaden their applications in chemical and biological research.This review covers structure diversity and functional versatility of fluorosurfactants.Fluorosurfactants can be divided into two basic types according to their structure,linear and dendritic types,which both provides individual advantages.Linear fluorosurfactants are easily synthesized and commercially available,whereas dendritic fluorosurfactants have a branched structure that greatly reduces molecular cross-talk between droplets.Based on the application point of view,fluorosurfactants can be further classified into two categories:reactive and responsive fluorosurfactants.The hydrophilic head of reactive fluorosurfactants contains a reactive functional group,making them very useful in other applications,such as microcapsule preparation or protein crystallization.In contrast,responsive fluorosurfactants would change their properties with respect to external stimuli,such as temperature or light,making them perfect candidates for the on-demand control of droplet behavior.Development of these new classes of fluorosurfactants has expanded the capabilities and applications of droplet microreactors that enables interdisciplinary challenges to be solved.
基金the Faculty of Engineering University of Khartoum,Sudan,for the financial support of his studies at the University of Aberdeen
文摘Surfactant-based oil recovery processes are employed to lower the interfacial tension in immiscible displacement processes,change the wettability of rock to a more water-wet system and emulsify the oil to displace it in subsurface porous media.Furthermore,these phenomena can reduce the capillary pressure and enhance spontaneous imbibition.The key factors affecting such immiscible displacement process are temperature,salinity and p H of the fluids,surfactant concentration and adsorption.Therefore,before any surfactant flooding process is applied,extensive studies of fluid-fluid and rock-fluid interactions are needed.The use of other chemicals along with surfactants in chemical enhanced oil recovery(c EOR)processes have been widely considered to exploit the synergy of individual chemicals and complement the weakness arises from each of them during immiscible displacement of fluids in porous media.Therefore,such combinations of chemicals lead to alkaline-surfactant(AS),surfactantpolymer(SP),alkaline-surfactant-polymer(ASP),and nanoparticle-surfactant(NS)flooding processes,among others.In this review study,we categorised the role and displacement mechanisms of surfactants and discussed the key factors to be considered for analysing the fluid displacement in porous media.
文摘In order to explore the mechanism of improving the surface wettability of low-energy polytetrafluoroethylene(PTFE)by new extended surfactants,five kinds of extended anionic surfactants with different numbers of oxypropylene(PO)and oxyethylene(EO),octadecyl-(PO)_(m)-(EO)_(n)-sodium carboxylate(C_(18)PO_(m)EO_(n)C,m=5,10,15,n=5,10,15),were studied.The surface tension and contact angle of C_(18)PO_(m)EO_(n)C solution with different concentrations were measured,and the adhesion tension,PTFE-water interfacial tension,and adhesion work were calculated.It was found that the extended surfactant molecules adsorb on the surface of the solution and the PTFE-liquid interface simultaneously when the concentration is lower than the critical micelle concentration(cmc),and there was a linear relationship between surface tension and adhesion tension.The adsorption amount of C_(18)PO_(m)EO_(n)C at the PTFE-water interface was significantly lower than that on the surface of the solution.As the concentration increases above cmc,semi-micelle aggregates on the surface of PTFE are formed by C_(18)PO_(m)EO_(n)C molecules through hydrophobic interaction,and the hydrophilic group faces the solution to modify the surface of PTFE with high efficiency.
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.
文摘The compound system of polyacrylamide hydrogels and surfactant solutions are used for enhanced oil recovery(EOR).The polyacrylamide hydrogels are injected into block high-permeability zones firstly,followed by a low-cost sacrificial agent,then an oil-displacing surfactant,and finally an aqueous polymer solution containing diethanolamine,to enhance oil production.The hydrogels are selected through oscillatory rheometry,while the surfactant is optimized after optical imaging analysis.The EOR performance of the compound system is evaluated through core flooding experiments and reservoir numerical simulation.Specifically,the properly cross-linked polyacrylamide hydrogel can be selected using its elastic modulus as a quantitative parameter while accounting for pore structure.The sacrificial agent is used to block active adsorption sites in the rock matrix before mobilizing more crude oil with a nonionic-anionic surfactant system.The addition of the mild organic alkali(diethanolamine)into the polymer slug reduces surfactant adsorption and improves sweep efficiency,thereby enhancing the oil-washing effect.Flooding experimental results show that the sequential injection of hydrogel and surfactant compositions prolongs the period of increasing pressure gradient during subsequent waterflooding and significantly boosts oil production,achieving a 21-percentage-point increase in oil displacement efficiency.Numerical simulation for the target reservoir in the West Siberian oil province confirms the effectiveness,projecting a maximum cumulative oil increase of 6851 t over three years.
文摘Posaconazole(PCZ)is a broad-spectrum anti-fungal drug approved by FDA and currently used off-label for the treatment of fungal keratitis(FK).Although ocular route serves as the most bioavailable route for treating FK,delivery of PCZ to the eye remains a challenge due to poor permeation though the cornea and rapid elimination from the eye.Here we outline a comprehensive formulation development process,beginning with in silico studies,progressing through in vitro evaluations,and ultimately achieving therapeutic benefits in vivo.We report modified niosome-like surfactant vesicles,hereafter termed as NioTherms,formulated using a novel and simple heat-mix method,encapsulating PCZ for ocular administration in the form of an in situ gel.Excipient screening performed using in silico simulations highly correlate with in vitro studies(R^(2)=0.77),guiding optimization by Quality by Design(QbD)approach for encapsulating PCZ in NioTherms resulting in particles with an average size of 180.7±2.3 nm,zeta potential of +27.5±2.2 mV and entrapment efficiency of 87.6%±1.7%.A 2-fold increase in both mucin binding and cellular uptake indicates a functional role of positive surface charge in enhancingmucoadhesive properties of PCZ-NioTherms.In an in vivo murine ocular keratitis model,we demonstrate a 2-fold enhancement in trans-corneal permeability of PCZ-NioTherms and a 3-fold reduction in fungal burden compared to the control standard of care,the PCZ solution.Owing to a facile formulation process,we anticipate that PCZ-NioTherms would serve as a clinically translatable and patient compliant therapeutic intervention for treating FK.
文摘From April 21st to 23rd,the 2025 China Surfactant Industry Conference was successfully held in Hangzhou.The conference was hosted by China Research Institute of Daily Chemical,and the National Engineering Research Center for Surfactant,undertaken by the National Productivity Promotion Center for Surfactant and Detergent Industry and the China Daily Chemical Industry Information Center,specially co-organized by Zanyu Technology Group Co.,Ltd,and jointly co-organized by the China Surface Active Agent Industry Alliance (SAA),the Malaysian Palm Oil Board (MPOB),the Roundtable on Sustainable Palm Oil (RSPO),and the American Oil Chemists’ Society (AOCS).
基金Supported by Zhaoqing University Innovation and Entrepreneurship Training Program for College Students (X202410580130).
文摘This paper summarizes the mechanisms and environmental effects of interactions between microplastics and surfactants: surfactants adsorb onto microplastics surfaces through hydrophobic interactions and electrostatic forces, changing their surface properties and transport behavior. In addition, microplastics act as carriers influencing surfactant distribution. Environmental factors (pH, ionic strength, etc. ) significantly regulate this process. Current research still has limitations in areas such as desorption kinetics and combined pollution effects, necessitating in-depth studies under environmentally relevant conditions to provide a basis for risk assessment.
文摘Using sodium laureth sulfate(AES)as reference,the effects of different pH values on the foam properties of four amino acid surfactants(sodium lauroyl sarcosinate,lauroyl alanine,disodium cocoyl glutamate,sodium methyl cocoyl taurate)were compared.On the basis,the effects of amino acid surfactants on foam performance,flocculation behavior,hair color protection efficacy and sebum removal capacity were studied when AES was completely or partially replaced by amino acid surfactant,and the correlation between the structure of amino acid surfactant and these properties was discussed.Compared with AES,the foam performance of sodium lauroyl sarcosinate,lauroyl alanine and disodium cocoyl glutamate were significantly affected by pH value,and sodium methyl cocoyl taurate was less affected.The foam stability of shampoo system can be enhanced by the combination of amino acid surfactant,and the foam performance of shampoo system can be significantly improved by the combination of sodium methyl cocoyl taurate.All the four amino acid surfactants can prolong the flocculation time of shampoo,and the effect of disodium cocoyl glutamate was the most obvious.The hair color protection efficacy of disodium cocoyl glutamate and sodium methyl cocoyl taurate were better than AES.The degreasing power of disodium cocoyl glutamate was weaker than that of AES,and the degreasing power of sodium lauroyl sarcosinate,lauroyl alanine and sodium methyl cocoyl taurate were stronger than that of AES.
文摘From April 21 to 23,2025,the “2025 China Surfactant Industry Alliance(SAA)” was successfully held in Hangzhou,sponsored by the China Research Institute of Daily Chemical and the National Engineering Research Center for Surfactants,undertaken by the Productivity Promotion Center of the Surfactant and Detergent Industry and the China National Daily Chemical Industry Information Center,specially assisted by Zanyu Technology Group Co.,Ltd.,and co organized by the China Surfactant Industry Alliance(SAA),the Malaysian Palm Oil Board(MPOB),the Roundtable on Sustainable Palm Oil(RSPO),and the American Oil Chemists' Society(AOCS).
基金supported by the National Natural Science Foundation of China Joint Fund for Regional Innovation and Development(Grant numbers [U21A20334])the Postgraduate Innovation Funding Project of Hebei Province(Grant numbers [CXZZBS2022116])。
文摘Objective Recent studies have overturned the traditional concept of the lung as a “sterile organ” revealing that pulmonary microbiota dysbiosis and abnormal surfactant proteins(SPs) expression are involved in the progression of silicosis. This study aimed to investigate the relationship between abnormal SPs expression and dysbiosis of lung microbiota in silica-induced lung fibrosis, providing insights into mechanisms of silicosis.Methods Lung pathology, SPs expression, and microbiota composition were evaluated in silicaexposed mice. A mouse model of antibiotic-induced microbiota depletion was established, and alveolar structure and SPs expression were assessed. The roles of the lung microbiota and SPs in silicosis progression were further evaluated in mice with antibiotic-induced microbiota depletion, both with and without silica exposure.Results Silica exposure induced lung inflammation and fibrosis, along with increased expression of SPA expression. Antibiotics(Abx)-induced microbiota depletion elevated SP-A and SP-D expression.Furthermore, silica exposure altered lung microbiota composition, enriching potentially pathogenic taxa.However, antibiotic-induced microbiota depletion prior to silica exposure reduced silica-mediated lung fibrosis and inflammation.Conclusion Lung microbiota is associated with silica-induced lung injury. Overproduction of SP-A and SP-D, induced by Abx-induced microbiota depletion, may enhance the resistance of mouse lung tissue to silica-induced injury.
基金supported by the National Natural Science Foundation of China(Project No.52166004)the National Key Research and Development Program of China(Project No.2022YFC3902000)+2 种基金the Major Science and Technology Special Project of Yunnan Province(Project Nos.202202AG050007202202AG050002)the Research on the Development of Complete Sets of Technology for Extraction of Aromatic Substances from Tobacco Waste and Its Application,Applied Research-Pyrolysis Process Technology Research(2023QT01).
文摘In modern engineering,enhancing boiling heat transfer efficiency is crucial for optimizing energy use and several industrial processes involving different types of materials.This study explores the enhancement of pool boiling heat transfer potentially induced by combining perforated copper particles on a heated surface with a sodium dodecyl sulfate(SDS)surfactant in saturated deionized water.Experiments were conducted at standard atmospheric pressure,with heat flux ranging from 20 to 100 kW/m2.The heating surface,positioned below the layer of freely moving copper beads,allowed the particle layer to shift due to liquid convection and steam nucleation.The study reports on the influence of copper bead diameter(2,3,4,and 5 mm),particle quantity,arrangement,and SDS concentration(20,200,and 500 ppm).It is shown that the combination of 5 mm particles and a 500 ppm SDS concentration can yield a remarkable 139%improvement in heat transfer efficiency.As demonstrated by direct flow visualization,bubble formation occurs primarily in the gaps between the particles and the heated surface,with the presence of SDS reducing bubble size and accelerating bubble detachment.
基金Project supported by the National Natural Science Foundation Regional Innovation Development Joint Fund(U24A2096)。
文摘Surfactant sodium alcohol ether carboxylate(AEC-9Na)was added to the magnesium sulfate solution in order to enhance the leaching efficiency of ionic rare earth ore,and the mechanism of action for AEC-9Na was elucidated.Under optimal conditions,the addition of AEC-9Na with a mass fraction of 0.03% can enhance the leaching rate by 5.2% and reduce the leaching cycle.Kinetic analysis demonstrates that the leaching process follows the model of internal diffusion control.The analysis of the mass transfer process reveals that the addition of AEC-9Na results in a decrease in the height equivalent to a theoretical plate(HETP)and an improvement in mass transfer efficiency.The addition of AEC-9Na can reduce the thickness of the water layer adsorbed on particles during leaching,which in turn reduces hydration and facilitates penetration of the leaching solution into ore body pores.This improves mass transfer concentration differences during leaching,and facilitates desorption of rare earth ions.Periodic density functional theory(DFT)calculations show that the adsorption of AEC-9Na onto the surface of kaolinite(001)enhances the hydrophilicity of the mineral surface and improves its permeability efficiency.Simultaneously,AEC-9Na forms complexes with hydrated rare earth ions on the kaolinite(001)surface,thereby reducing their adsorption strength on clay minerals.This promotes the exchange and desorption process of magnesium ions to hydrated rare earth ions,ultimately enhancing the mass transfer process for leaching rare earth elements.
基金supported by the College of Petroleum Engineering&Geoscience (CPG) at King Fahd University of Petroleum and Minerals (KFUPM)。
文摘Surfactants play a critical role in enhanced oil recovery(EOR) applications;however,their performance is often compromised in harsh reservoir conditions,such as high temperature and high salinity,due to precipitation caused by interactions with multivalent metal ions.Chelating agents were introduced into oilfields for various purposes due to their ability to sequester metal ions.In this work,we conducted a comprehensive investigation about chelating agent-surfactant(CS) flooding for carbonate reservoirs,as an alternative to the well-established alkaline surfactant(AS) flooding used in sandstone.The tested surfactants include sodium dodecyl sulfate(anionic)(SDS),dodecyltrimethylammonium bromide(cationic)(DTAB),Triton X100(nonionic),and a locally synthesized zwitterionic surfactant.The tested chelating agents include diethylenetriaminepentaacetic acid(DTPA),ethylenediaminetetraacetic acid,and glutamic acid N,N-diacetic acid.pH and temperature,as dominant factors in chelating agent solubility and brine stability,were modified to test chelating agent solutions of different concentrations and their mixtures with surfactants.Interfacial tension reduction by chelating agents alone,surfactants alone,and their mixtures were measured.Wettability alteration brought by chelating agents and surfactants on carbonate rock surfaces was evaluated using the static contact angle method.Based on the obtained results,chelating agents can be applied as low-cost additives for surfactant stabilization in high salinity conditions.The addition of chelating agents significantly improved the stability of SDS and DTAB in salt solutions and seawater.At a relatively low concentration(0.25 wt%),DTPA was able to stabilize DTAB of 1.00 wt% in seawater at high temperature(90℃).DTPA,among the tested three chelating agents,exhibited a stronger stabilization effect on surfactants of different ion types.When chelating agents are to be applied in brine,an optimal applicable pH range of 5-9 is recommended so not to induce solubility issue of chelating agents or stability issues of metal ions.In this range,IFT reduction is more significant at high pH,while wettability alteration is more significant at low pH.The combination of a cationic surfactant with a chelating agent forms a low adsorption wettability modifier which can change strongly oil-wet rock to water-wet conditions,thus significantly increasing the residual oil recovery from oil-wet carbonate formations.Zwitterionic and nonionic surfactants are also applicable to combine with a chelating agent for EOR purposes.Anionic surfactant SDS,however,showed a growing inhibition on the wettability alteration effect induced by EDTA as the concentration of SDS increased.
基金supported by the National Natural Science Foundation of China(Nos.22225806,22078314,22278394,22378385)Dalian Institute of Chemical Physics(Nos.DICPI202142,DICPI202436).
文摘The overuse of surfactants has made them well-known environmental pollutants.So far,it is still a challenge to simultaneously distinguish cationic,anionic,zwitterionic,nonionic surfactants and surfactants with similar structures based on traditional analytical techniques.We developed a high-throughput method for distinguishing various surfactants based on the adaptive emission profile as fingerprints(AEPF).The fluorescence response of the sensor was based on the interaction between surfactants and 1,3-diacetylpyrene(o-DAP)probe.The interaction affected the reversible conversion of free molecules and two aggregates in the solution,thereby changing the relative abundance and the fluorescence intensity ratio of two aggregates emitting different fluorescence.The o-DAP sensor can distinguish four types of surfactants(16 surfactants),especially surfactants of the same type with similar structures.The o-DAP sensor sensitively determined the critical micelle concentration(CMC)of 16 surfactants based on the interaction between o-DAP and surfactants.Additionally,the o-DAP sensor can detect and distinguish artificial vesicles made from different surfactants.
文摘Background Persistent pulmonary hypertension(PPHN)of the newborn is one of the major contributors to neonatal mortality.Current conventional treatments for PPHN primarily encompass mechanical ventilation,inhaled nitric oxide(iNO),sildenafil,and magnesium sulfate.In confirmed cases of neonatal respiratory distress syndrome,pulmonary surfactant(PS)can be considered as a potential treatment option;However,the optimal dosage and administration frequency of PS remain subjects of ongoing debate.This study aimed to assess the efficacy of early repeated endotracheal PS administration combined with iNO therapy in the management of newborns with PPHN.Methods Twenty-three neonates with PPHN received iNO alongside foundational treatments,including anti-infection therapy,mechanical ventilation,acidosis correction,and blood pressure stabilization.The observation group(n=13)received endotracheal instillation of PS three times,with each administration spaced six hours apart;The control group(n=10)received endotracheal instillation of PS once.Parameters compared included blood gas indices,oxygenation index(OI),alveolar-arterial oxygen partial pressure difference(PA-aDO,),pulmonary artery systolic pressure(PAP),and N-terminal pro-brain natriuretic peptide(NT-pro-BNP).Mechanical ventilation duration,oxygen therapy time,hospitalization length,and survival outcomes were recorded and compared between groups.Results The blood gas parameters,OI,and PA-aDO,showed no significant differences between the two groups of children before treatment(P>0.05).By 24-hour post-treatment,both groups exhibited significant increases in partial pressure of oxygen(PaO,)and potential of hydrogen(PH)levels,alongside significant decreases in lactate,partial pressure of carbon dioxide(PaCO,),OI,and PA-aDO2,with statistically significant differences(P<0.05).By 48-hour post-treatment,the observation group demonstrated significantly better improvements in blood gas parameters,OI,and PA-aDO,compared to the control group,and these differences were statistically significant(P<0.05).There was no statistically significant difference in PAP and NT-pro-BNP levels between the two groups before treatment(P>0.05).After treatment,both groups showed significant decreases in PAP and NT-pro-BNP levels(P<0.05),with a more pronounced reduction observed in the observation group(P<0.05).The observation group had significantly shorter durations of mechanical ventilation and oxygen therapy compared to the control group,with statistically significant differences(P<0.05).Additionally,the observation group exhibited a shorter total hospital stay and a lower mortality rate than the control group,though these differences were not statistically significant(P>0.05).Conclusions Early consecutive multiple doses of PS combined with iNO,compared to a single dose,better improves respiratory function indices,maintains stability,reduces pulmonary artery pressure,enhances cardiac function,shortens ventilator dependency,and increases cure rates in PPHN neonates.This approach is particularly suitable for severe PPHN cases,especially those with underlying pulmonary conditions.
基金supported by the Key Joint Fund of National Natural Science Foundation of China(U23B2085)China National Petroleum Corporation Innovation Fund(2022DQ02-0205).
文摘High-molecular-weight partially hydrolyzed polyacrylamide(HPAM)has extensively used in enhanced oil recovery(EOR)process;however,it suffers from poor injectivity into low-permeability oil reservoirs and compromised long-term thermal stability under reservoir conditions.To address these challenges,a viscoelastic surfactant,3-(N-erucamidopropyl-N,N-dimethyl ammonium)betaine(EDAB),was developed and systematically compared with HPAM.Experimental results demonstrate that EDAB outperforms HPAM in thermal resilience,salt tolerance,and interfacial activity.Unlike HPAM's thermal thinning behavior,EDAB displays thermo-thickening properties,with viscosity rising from 225 to 366 mPa⋅s as temperature increases from 25 to 55℃.EDAB maintains 100% viscosity retention under 80 mg⋅L^(−1) Ca^(2+)or Mg^(2+),whereas HPAM experiences 46%viscosity loss under identical ionic conditions.Core-flooding tests conducted under simulated Daqing oil reservoir conditions indicate that EDAB achieves a 1.4%higher incremental oil recovery factor than HPAM with equal initial solution concentration.When HPAM was employed as a mobility control for pre-or post-flush,EDAB elevates the recovery factor by 13.9%over water flooding.These comparative analyses underscore the potential of EDAB as a thermally stable,salt-insensitive alternative to HPAM,offering an optimized chemical strategy for EOR in challenging reservoir environments.The findings provide empirical validation for surfactant-based solutions to address HPAM's operational constraints in low-permeability formations.
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.
文摘The effects of different kinds of cosurfactants on the properties of the crystalline amino acid cleanser based on potassium cocoyl-glycine were studied by analyzing the foam properties,high-temperature stability and crystallization temperature.The results showed that PEG-80 sorbitan laurate makes the composite foaming system slower and less,but the foam stability and high-temperature stability are better.The addition of lauryl hydroxysultaine can make the foaming speed faster and the foam volume larger,and this material can improve the crystallization of potassium cocoyl-glycine,so that the high-temperature stability of the composite system is better.The addition of anionic surfactant like sodium methyl cocoyl taurate or sodium lauroyl glutamate is helpful for foam fineness and foam stability,but may have a negative effect on high-temperature stability.The addition of lauryl glucoside is disadvantage on foam stability and high-temperature stability,so it is not suitable for this system.Cosurfactants can be selected on demand when developing the related products.
基金funding provided by Cangzhou Institute of Tiangong University(Grant No.TGCYY-F-0301)Hebei Natural Science Foundation,China(Grant No.E2025110039)。
文摘Tailoring functional interfacial layers through molecular design of electrolyte additives has emerged as a prevalent strategy to modulate interfacial reactions and stabilize aqueous zinc-ion batteries(AZIBs).In this work,the effect of alkyl chain-induced conformation evolution in interfacial layers on stabilizing the zinc anode was systematically studied using linear cationic surfactant additives.Based on the electrochemical tests and COMSOL simulations,these additives expanded the electrochemical stability window of electrolytes and formed zincophilic-hydrophobic interfacial layers on the anode surface,thus suppressing side reactions and blocking water erosion.Moreover,the interfacial layers not only increased the nucleation overpotential of zinc ions,thus alleviating the electrolyte concentration polarization,but also restricted the 2D diffusion of zinc ions on the anode surface,thereby inducing uniform deposition of finer zinc particles and inhibiting dendrite growth.Furthermore,theoretical calculations revealed that va rying alkyl chain lengths in cationic surfactants and their adsorption configurations resulted in different interfacial layer thicknesses.Especially the dodecyltrimethylammonium chloride(DTAC),the dodecyl group provided a robust hydrophobic layer,effectively stabilizing the zinc anode.And the Zn‖Zn cell with ZSO-DTAC electrolyte achieved a long lifespan of 2000 h at 1 mA cm^(-2),the Zn‖Cu cell exhibited an excellent Coulombic efficiency of 99.69%at 2 mA cm^(-2).In addition,the Zn‖MnO_(2) full cell delivered an initial capacity of 149.44 mA h g^(-1)at 5 A g^(-1),with 83.02%capacity retention after 2000cycles.This work provided fundamental insights into modulating interfacial conformations and reactions to stabilize zinc anodes by surfactant-type additives,offering practical guidance for electrolyte optimization in high-performance AZIBs.
