A method for the rapid reduction of acyl chlorides to aldehydes was developed using pinacolborane(HBpin)as the reducing agent.The method exhibits excellent generality for both aromatic and aliphatic substrates,affordi...A method for the rapid reduction of acyl chlorides to aldehydes was developed using pinacolborane(HBpin)as the reducing agent.The method exhibits excellent generality for both aromatic and aliphatic substrates,affording aldehydes in isolated yields of up to 88%with broad functional group tolerance,including cyano,halogen,alkenyl,ketone,and ester groups.Moreover,the method enables gram-scale aldehyde synthesis and shows high efficiency in reducing in situ generated acyl chlorides,thereby enhancing its synthetic practicality.展开更多
A series of novel nitrogen-containing heterocyclic compounds based on the nitidine chloride(NC)core were designed and synthesized through the Heck reaction.The derivatives included sulfonamide analogs,piperazine analo...A series of novel nitrogen-containing heterocyclic compounds based on the nitidine chloride(NC)core were designed and synthesized through the Heck reaction.The derivatives included sulfonamide analogs,piperazine analogs,and thiazole analogs.Their antiproliferative activities were evaluated against four tumor cell lines(HL-60,HeLa,HepG2,H460)and normal liver cells(LO2)via in vitro cytotoxicity assays.The results showed that sulfonamide derivatives selectively inhibited HeLa cells.Among them,2,4,6-trimethyl-N-(6-(6-oxobenzo[c]phenanthridin-5(6H)-yl)hexyl)benzenesulfonamide(14c)exhibited the most potent activity[IC50=(1.83±0.24)μmol/L],comparable to nitidine chloride and cisplatin,while showing no significant toxicity toward LO2 cells.Piperazine analogs displayed broad inhibitory effects against tumor cells but accompanied by cytotoxicity,whereas thiazole analogs were largely inactive.Mechanistic studies revealed that the representative compound 14c exerted antitumor effects by inducing apoptosis and cell cycle arrest in HeLa cells,manifested by a significant reduction in the proportion of G0/G1 phase cells(69.90%±5.80%)and promotion of S/G2/M phase progression.The topoisomerase I(Topo I)inhibition assay demonstrated that the piperazine derivative effectively inhibits Topo I activity.Overall,compound 14c emerges as a promising antitumor candidate with high efficacy and low toxicity,demonstrating that nitrogen-containing hybridization of nitidine chloride provides a potential strategy for developing novel Topo I inhibitors.展开更多
Objective:To investigate the sterilizing potential of zinc gluconate,calcium chloride(CaCl_(2))and cadmium chloride(CdCl_(2))following a single intratesticular administration in adult male rats.Methods:60 adult male W...Objective:To investigate the sterilizing potential of zinc gluconate,calcium chloride(CaCl_(2))and cadmium chloride(CdCl_(2))following a single intratesticular administration in adult male rats.Methods:60 adult male Wistar albino rats(Rattus norvegicus)weighing 160-200 g and aged 5-6 months randomly received a single intratesticular injection of normal saline(Group A),zinc gluconate 13.3 mg/mL plus L-Arginine(Group B),20%CaCl_(2)(Group C),and CdCl_(2)0.5 mg/kg body weight plus ethylenediaminetetraacetic acid(EDTA)(Group D),respectively,along the entire route from the caudoventral aspect of each testis.They were euthanized up to 180 days to evaluate reproductive tract toxicology.Results:The reproductive organ weights were markedly reduced,with testes severely atrophied in group B,pea-sized and stony hard in group C,and moderately reduced in group D.Azoospermia was evident in groups B and C,while sperm concentration was reduced to<1 million/mL with zero sperm motility in group D.Rats of groups B and C failed to show mounting and copulatory behaviour.A completely disorganized mesh of cellular elements was observed in the seminiferous tubules of group B,while pyknotic germ cell and arrest of spermatogenesis,exfoliated germ cells,occasional syncytial bodies and smaller Leydig cells were evident in groups C and D.Significantly reduced testosterone levels,increased luteinizing hormone(LH)and follicle-stimulating hormone(FSH)levels,returned to normal after 90 days in group D.Conclusions:Zinc gluconate and CaCl_(2)injections severely affected the reproductive organs and libido and rats treated with CdCl_(2)exhibited diminished spermatogenesis with normal libido.Thus,the need-based selection of intratesticular agents should consider their distinct effects on spermatogenesis,libido,and hormonal balance for achieving targeted sterilization outcomes.展开更多
The molten CaCl_(2)−CaMoO_(4) system was investigated,and the electrodeposition of protective Mo coatings on Ni plates was demonstrated.The results confirm the high solubility of solid CaMoO_(4) and the electrochemica...The molten CaCl_(2)−CaMoO_(4) system was investigated,and the electrodeposition of protective Mo coatings on Ni plates was demonstrated.The results confirm the high solubility of solid CaMoO_(4) and the electrochemical reactivity of MoO_(4)^(2-)ions in molten CaCl_(2).The eutectic temperature and composition of the system are identified as 1021 K and 4.74 wt.%CaMoO_(4),respectively.Under constant-current electrolysis conditions of−10 mA/cm^(2) at 1123 K,uniform and dense Mo coatings are obtained on Ni plates with up to 90.31%efficiency.Increasing the current density raises the overpotential,leading to refined grains and decreased roughness.The Mo-coated Ni plate exhibits a significant improvement in hardness and corrosion resistance.Microhardness increases from HV 46.00 to HV 215.10 after coating,and the corrosion rate in a 20 wt.%NaCl solution at room temperature decreases to 0.1%that of the bare plate.These findings enhance our understanding of the molten CaCl_(2)–CaMoO_(4) system and emphasize the potential of innovative Mo coating technologies.展开更多
Green solvent pretreatment of biomass represents a promising ap-proach for enhancing the econom-ic value of lignocellulosic deriva-tives.In this study,corncob biomass was treated with a diol-based deep eutectic solven...Green solvent pretreatment of biomass represents a promising ap-proach for enhancing the econom-ic value of lignocellulosic deriva-tives.In this study,corncob biomass was treated with a diol-based deep eutectic solvent(DES)under mild conditions,facilitating efficient cellulose separation.The extracted cellulose was subsequently used to fabricate cellulose hydrogels in an aqueous zinc chloride solution.The resulting hydrogel exhibited a“water-in-salt”effect due to the high concentration of ZnCl_(2).Leveraging the antifreeze properties of sorbitol,the system demon-strated outstanding low-temperature electrochemical performance,including a broad operat-ing voltage window and an ionic conductivity of 38.4 mS·cm^(-1)at-20℃.At 20℃,the de-vice achieved an energy density of 206 Wh·kg^(-1)and a power density of 2701.05 W·kg^(-1)at a current density of 1 A·g^(-1).Moreover,the flexible zinc-ion hybrid supercapacitor(ZHSC)maintained 89%of its capacitance and nearly 100%Coulombic efficiency after 5500 cycles at 20℃.This work not only advances the development of zinc-ion energy storage devices but al-so establishes a new paradigm for the green and direct utilization of biomass-derived materi-als.展开更多
Benzalkonium chloride(BAC)is widely employed as a broad-spectrum biocide and has emerged as a significant environmental pollutant.Polymyxin B(PB)serves as the last-line defense for the treatment of Gram-negative patho...Benzalkonium chloride(BAC)is widely employed as a broad-spectrum biocide and has emerged as a significant environmental pollutant.Polymyxin B(PB)serves as the last-line defense for the treatment of Gram-negative pathogens.Previous studies reported that BAC-adapted Pseudomonas aeruginosa increased the tolerance to PB.Herein,we present the novel finding that the combination of BAC and PB exhibited synergistic antibacterial effects against P.aeruginosa.Time-killing assay demonstrated a significant reduction in bacterial cell viability.Scanning electron microscopy,zeta potential analysis,hydrophobicity measurements,and fluorescence probe analyses collectively revealed severe disruption of the cell envelope and membrane potential induced by the combination of BAC and PB.Transcriptomic analysis revealed that the BAC-PB combination notably downreg-ulated the expression of genes involved in lipid A modification and cell envelope production,including phoPQ,pmrAB,bamABCDE,lptABCDEG,lolB,yidC,and murJ.Additionally,the combination group exhibited augmented production of reactive oxygen species and diminished ATP synthesis.The expression of the genes associated with substance metabolism and energy generation was significantly impeded.This study provides significant implica-tions for the interactions of biocides and antibiotics on Gram-negative pathogens,while also addressing antibiotic resistance and developing the external treatment strategy for Pseudomonas-infected wounds and burns.展开更多
Seawater electrolysis is an appealing route toward sustainable hydrogen production,yet its practical deployment is hindered by severe chloride-induced corrosion and parasitic chlorine oxidation.Here,we report noble me...Seawater electrolysis is an appealing route toward sustainable hydrogen production,yet its practical deployment is hindered by severe chloride-induced corrosion and parasitic chlorine oxidation.Here,we report noble metal-doped NiV layered double hydroxides(LDHs)that integrate electronic modulation with a dual chloride confinement mechanism.Ir incorporation simultaneously establishes strong Ir-Cl coordination and dynamically regenerated VO_(4)^(3-)layers,producing an adaptive electrostatic shield that effectively suppresses chloride penetration.As a result,Ir-NiV LDH delivers nearly 100%oxygen evolution reaction selectivity and outstanding stability over2750 h at 500 mA cm^(-2).Meanwhile,Ru doping optimizes the hydrogen evolution pathway,enabling a low overpotential of 195 mV and>2350 h durability.When paired in a twso-electrode electrolyzer,the Ru-NiVLDH‖Ir-NiVLDH system exhibits industrial-level performance and unprecedented robustness in alkaline seawater.This dual chloride confinement concept provides a general framework for catalyst design in corrosive ionic environments,extending beyond seawater splitting toward other electrochemical energy conversion processes.展开更多
The utilization of discarded coral debris in cementitious material is a prominent research area for island construction projects.The aim of this study is to explore the use of environment-friendly cement and waste cor...The utilization of discarded coral debris in cementitious material is a prominent research area for island construction projects.The aim of this study is to explore the use of environment-friendly cement and waste coral sand in the preparation of coral mortar,while investigating its performance when exposed to a chloride environment.Three types of low-carbon cements were employed,such as rapid hardening sulphoaluminate(RCSA)cement,high belite sulphoaluminate(HBCSA)cement,and slag sulphoaluminate cement(SSC).The coulomb electric flux,mechanical properties,free chloride content,and mass change of the cement mortar under exposed to 3.5 wt%NaCl solution were examined at various time intervals.X-ray diffraction analysis was conducted to identify the mineral phases present in the mortar samples.The results demonstrate that the flexural and compressive strength of the mortar consistently increase throughout the 360 days chloride exposure period.Incorporating coral sand into SSC-based mortars enhances their compressive strength from day 28 up until day 360.However,it adversely affects the strength of HBCSA-based mortars.The behavior of mortars exposed to a chloride-rich environment is closely associated with the amount of C-S-H gel present within them.SSC generates a significant quantity of C-S-H gel which possesses a large specific surface area capable of absorbing more chloride ions thereby reducing their concentration within the mortar matrix as well as increasing its mass and improving resistance against chloride ion penetration.展开更多
Chloride-based solid electrolytes are considered promising candidates for next-generation high-energy-density all-solid-state batteries(ASSBs).However,their relatively low oxidative decomposition threshold(~4.2 V vs.L...Chloride-based solid electrolytes are considered promising candidates for next-generation high-energy-density all-solid-state batteries(ASSBs).However,their relatively low oxidative decomposition threshold(~4.2 V vs.Li^(+)/Li)constrains their use in ultrahighvoltage systems(e.g.,4.8 V).In this work,ferroelectric Ba TiO_(3)(BTO)nanoparticles with optimized thickness of~50-100 nm were successfully coated onto Li_(2.5)Y_(0.5)Zr_(0.5)Cl_(6)(LYZC@5BTO)electrolytes using a time-efficient ball-milling process.The nanoparticle-induced interfacial ionic conduction enhancement mechanism contributed to the preservation of LYZC’s high ionic conductivity,which remained at 1.06 m S cm^(-1)for LYZC@5BTO.Furthermore,this surface electric field engineering strategy effectively mitigates the voltage-induced self-decomposition of chloride-based solid electrolytes,suppresses parasitic interfacial reactions with single-crystal NCM811(SCNCM811),and inhibits the irreversible phase transition of SCNCM811.Consequently,the cycling stability of LYZC under high-voltage conditions(4.8 V vs.Li+/Li)is significantly improved.Specifically,ASSB cells employing LYZC@5BTO exhibited a superior discharge capacity of 95.4 m Ah g^(-1)over 200 cycles at 1 C,way outperforming cell using pristine LYZC that only shows a capacity of 55.4 m Ah g^(-1).Furthermore,time-of-flight secondary ion mass spectrometry and X-ray photoelectron spectroscopy analysis revealed that Metal-O-Cl by-products from cumulative interfacial side reactions accounted for 6% of the surface species initially,rising to 26% after 200 cycles in pristine LYZC.In contrast,LYZC@5BTO limited this increase to only 14%,confirming the effectiveness of BTO in stabilizing the interfacial chemistry.This electric field modulation strategy offers a promising route toward the commercialization of high-voltage solid-state electrolytes and energy-dense ASSBs.展开更多
Polyvinyl chloride(PVC)poses persistent environmental and recycling challenges due to its high chlorine content,complex additives,and structural resistance to degradation.Recent research has shifted focus from traditi...Polyvinyl chloride(PVC)poses persistent environmental and recycling challenges due to its high chlorine content,complex additives,and structural resistance to degradation.Recent research has shifted focus from traditional disposal methods toward chemically informed strategies that valorize PVC within the framework of a circular economy.This review systematically summarizes three emerging pathways for PVC transformation.The first involves catalytic deconstruction into small molecules such as chlorinated olefins,hydrocarbons,and oxygenates through thermal,photocatalytic,and electro-assisted processes.The second explores backbone-preserving reconstruction into functional materials,including porous carbons,membranes,ion-conducting films,and vitrimer-type polymers by leveraging selective dechlorination and structural reprogramming.The third addresses the co-processing of PVC with mixed plastic wastes through synergistic catalytic systems that tolerate chlorine-rich streams and promote selective transformation.Across all pathways,emphasis is placed on structure-property correlations,chlorine management,additive compatibility,and downstream utility.Summary tables and schematic diagrams are included to compare system efficiencies,product selectivities,and application scopes.By integrating mechanistic understanding with materials innovation,this review highlights how PVC can be reimagined as a tunable molecular platform rather than a persistent pollutant.展开更多
BACKGROUND Colorectal cancer(CRC)is the third most common cancer globally,causing over 900000 deaths annually.Risk factors include aging,diet,obesity,sedentary lifestyle,tobacco use,genetic predisposition,and inflamma...BACKGROUND Colorectal cancer(CRC)is the third most common cancer globally,causing over 900000 deaths annually.Risk factors include aging,diet,obesity,sedentary lifestyle,tobacco use,genetic predisposition,and inflammatory bowel disease.Despite current treatments,survival rates for advanced CRC remain low,highlighting the need for better therapeutic strategies.AIM To evaluate both the clinical significance and the pathological implications of the Kinesin family member 14(KIF14)expression within CRC specimens.Additionally,this study aims to investigate the interaction between nitidine chloride(NC)and KIF14,considering their potential as therapeutic targets.METHODS The expression of the KIF14 protein in CRC was analyzed using immunohistochemical staining.The integration of multicenter high-throughput data facilitated the calculation of the standardized mean difference(SMD)for KIF14 mRNA levels.The assessment of clinical and pathological impact was enhanced by analyzing combined receiver operating characteristic curves,along with measures of sensitivity,specificity,and likelihood ratios.Additionally,clustered regularly interspaced short palindromic repeats knockout screening for cell growth and single-cell sequencing were employed to validate the significance of KIF14 expression in CRC.Survival analysis established the prognostic value of KIF14 in CRC.The molecular mechanism of NC against CRC was elucidated through whole-genome sequencing and enrichment analysis,and molecular docking was utilized to explore the targeting affinity between NC and KIF14.RESULTS KIF14 was highly expressed in 208 CRC patients.Data from 17 platforms involving 2436 CRC samples and 1320 noncancerous colorectal tissue controls indicated that KIF14 expression was significantly higher in CRC samples,with an SMD of 1.92(95%CI:1.49-2.35).The area under the curve was 0.94(95%CI:0.92-0.96),with a sensitivity of 0.85(95%CI:0.78-0.90)and a specificity of 0.90(95%CI:0.85-0.93).The positive and negative likelihood ratios were 8.38(95%CI:5.39-13.02)and 0.17(95%CI:0.11-0.26),respectively.At the single-cell level,significant overexpression of KIF14 was observed in CRC cells(P<0.001),with 35 CRC cell lines dependent on KIF14 for growth.The K-M plots demonstrated that KIF14 possesses prognostic value in CRC patients within the GSE71187 and GSE103679 datasets(P<0.05).Binding energy calculations indicated that KIF14 is a potential target for NC(binding energy:10.3 kcal/mol).CONCLUSION KIF14 promotes the growth of CRC cells and acts as an oncogenic factor,potentially serving as a therapeutic target for NC in the treatment of CRC.展开更多
In the extraction of potassium from salt lakes,Mg is abundant in the form of bischofite(MgCl_(2)·6H_(2)O),which is not utilized effectively,resulting in the waste of resources and environmental pressure.Anhydrous...In the extraction of potassium from salt lakes,Mg is abundant in the form of bischofite(MgCl_(2)·6H_(2)O),which is not utilized effectively,resulting in the waste of resources and environmental pressure.Anhydrous MgCl_(2) prepared by the dehydration of bischofite is a high-quality raw material for the production of Mg.However,direct calcination of MgCl_(2)·6H_(2)O in industrial dehydration processes leads to a large amount of hydrolysis.The by-products are harmful to the electrolysis process of Mg,causing problems such as sludge formation,low current efficiency,and corrosion in the electrodes.To obtain high-purity anhydrous MgCl_(2),different advanced dehydration processes have been proposed.In this review,we focus on the recent progress of the dehydration process.Firstly,we discuss the molecular structure of MgCl_(2)·6H_(2)O and explain the reason why much hydrolysis occurs in dehydration.Secondly,we introduce the specific dehydration processes,mainly divided into direct dehydration processes and indirect dehydration processes.The direct dehydration processes are classified into gas protection heating and molecular sieve dehydration process.Indirect dehydration processes are classified into thermal dehydration of ammonium carnallite(NH_(4)Cl·MgCl_(2)·6H_(2)O),thermal dehydration of potassium carnallite(KCl·MgCl_(2)·6H_(2)O),thermal decomposition of the[HAE]Cl·MgCl_(2)·6H_(2)O,organic solvent distillation,ionic liquid dehydration process and ammonia complexation process.In the meanwhile,purity of anhydrous MgCl_(2) of each dehydration process,as well as the advantages and disadvantages,is discussed.The characteristics of different processes with a simple economic budget are also given in this paper.Finally,the main challenges are evaluated with suggested directions in the future,aiming to guide the synthesis of high-purity anhydrous MgCl_(2).展开更多
Patients with advanced liver cirrhosis and liver failure frequently experience abnormalities in their serum electrolyte levels.In such patients,hyponatremia has been identified as a predictor of poor outcomes.However,...Patients with advanced liver cirrhosis and liver failure frequently experience abnormalities in their serum electrolyte levels.In such patients,hyponatremia has been identified as a predictor of poor outcomes.However,emerging evidence suggests that serum chloride may provide even better prognostic information in similar situations.Hypochloremia,characterised by low serum chloride levels,has been linked to increased mortality,exacerbated organ dysfunction,and higher requirements for renal replacement therapy and vasopressors in various critical conditions,including advanced liver diseases.The pathophysiological mecha-nisms underlying the association between low serum chloride levels and poor outcomes in liver disease appear to involve complex interactions among electro-lyte imbalances,renal function,and systemic hemodynamics.Chloride dysregu-lation can influence renal salt-sensing mechanisms,disrupt acid-base homeostasis,and exacerbate complications such as hepatic encephalopathy and hepatorenal syndrome.This article aims to elucidate the prognostic significance of lower serum chloride levels in patients with advanced liver disease.By reviewing recent literature and analysing clinical data,we seek to establish serum chloride as an underutilised but valuable prognostic marker.Understanding the role of serum chloride in liver disease could enhance prognostic accuracy,refine treatment strategies,and ultimately improve patient outcomes.展开更多
In this study,synthetic wastewater containing 110μg/L arsenate(As(V)),0-20 mg/L fulvic acid(FA),and 0-12.3 mg/L phosphate was treated with 3 mg/L Fe3+.The mechanisms of FA and phosphate effects on As(V)removal by fer...In this study,synthetic wastewater containing 110μg/L arsenate(As(V)),0-20 mg/L fulvic acid(FA),and 0-12.3 mg/L phosphate was treated with 3 mg/L Fe3+.The mechanisms of FA and phosphate effects on As(V)removal by ferric chloride were determined using 0.22-10μm pore-size filtration,Zetasizer analysis,and in situ flow through cell ATR-FTIR.The results showed that up to 20mg/L FA had almost no effect on the solubility of ferric hydroxide precipitates and adsorption of As(V)by the precipitates.When FA concentration increased from 0 to 20 mg/L,the adsorption of FA led to higher negative zeta potential of the precipitates and the strong electrostatic repulsion between the precipitates decreased the particle size of ferric hydroxide flocs fromlarger than 10μmto smaller than 1μm.In the presence of 5-20 mg/L FA,46%-63%As(V)was adsorbed onto the flocs with particle size in the range of 0.45-1μm.On the other hand,phosphate did not affect the size of ferric hydroxide flocs and significantly increased the dissolved As(V)concentration because it competed with As(V)for adsorption sites on ferric hydroxide precipitates.The addition of 5mg/L cationic organic flocculant significantly reduced the effect of FA on As(V)removal,but did not reduce the effect of phosphate on As(V)removal.The findings of this study will help develop effective arsenic treatment techniques and predict the mobility of arsenic in the environment.展开更多
Ductile iron pipes,a staple in global urban water supply systems,face a significant challenge in the form of corrosion,which threatens water quality and pipeline integrity.The deterioration mechanism of shrink-age def...Ductile iron pipes,a staple in global urban water supply systems,face a significant challenge in the form of corrosion,which threatens water quality and pipeline integrity.The deterioration mechanism of shrink-age defects on the passivation behavior of ductile iron in simulated concrete pore solution was investi-gated.The results indicated that shrinkage defects increase donor density and reduce the threshold value of chlorine concentration for rupture of ductile iron passion film(CTV)of ductile iron.Defects reduce CTV from 1-1.1 wt.%to 0.36-0.4 wt.%.Because the matrix/graphite around the defect has a higher Volta potential difference,the shrinkage defect preferentially corrodes and induces local corrosion of the sur-rounding matrix,while no significant corrosion was observed in the region away from the defect.High lattice distortion and Si segregation around the shrinkage defect improve the driving force of corrosion in thermodynamics.Furthermore,shrinkage defects elevate the content of Fe(Ⅲ)compounds in the passive film,without compromising its duplex structure.These defects accelerate the nucleation and growth of the passive film,but generate more cation interstitials.This variation of chemical composition of passive film compromises the film’s integrity and protective properties,attributable to a potential mechanism of micro-environmental acidification and the synergistic effects of shrinkage defect-graphite-matrix multiple micro-galvanic couples.展开更多
Objective:To investigate the anti-inflammatory,antioxidant,and goblet cell-stimulating effects of a suspension of Ophiopogon japonicus(L.f.)Ker Gawl.(O.japonicus,Mai Dong)extract combined with hyaluronic acid(HA)in th...Objective:To investigate the anti-inflammatory,antioxidant,and goblet cell-stimulating effects of a suspension of Ophiopogon japonicus(L.f.)Ker Gawl.(O.japonicus,Mai Dong)extract combined with hyaluronic acid(HA)in the mouse model with dry eye disease(DED).Methods:A DED mouse model was induced using benzalkonium chloride(BAK),followed by treatment with O.japonicus extract-containing eye drops at varying concentrations.Experimental groups included a normal control,a DED model control,a positive control,and an O.japonicus extract-treated group.Corneal fluorescein staining and tear break-up time(TBUT)were used to assess tear film stability and ocular surface integrity.Enzyme-linked immunosorbent assay(ELISA)measured inflammatory factor levels in corneal and conjunctival tissues,whereas Western blot(WB)analyzed key antioxidant and inflammatory markers,including nuclear factor erythroid 2-related factor(2Nrf2)and heme oxygenase 1(HO-1).Periodic acid-schiff(PAS)staining and immunofluorescence were used to evaluate goblet cell density and mucin secretion.Results:O.japonicus extract significantly improved corneal damage,reduced fluorescein staining scores,prolonged TBUT,and increased tear secretion.It downregulated inflammatory markers,including interleukin-8(IL-8),interleukin-1β(IL-1β),and interferon-g(IFN-γ)while upregulating Nrf2,HO-1,and the interleukin-13(IL-13)/IFN-γ ratio,alleviating oxidative stress and inflammation.PAS staining showed increased conjunctival goblet cell density and restored mucin secretion,enhancing tear film stability.Conclusion:O.japonicus extract demonstrated significant anti-inflammatory,antioxidant,and goblet cell-stimulating effects in a DED model,with good biocompatibility and promising therapeutic potential.Future research should optimize extraction processes and validate their efficacy and safety in clinical settings.展开更多
The rust layer is a critical factor in determining the corrosion resistance performance of weathering bridge steel.Understanding the evolution mechanism of this rust layer is fundamental for the design and optimizatio...The rust layer is a critical factor in determining the corrosion resistance performance of weathering bridge steel.Understanding the evolution mechanism of this rust layer is fundamental for the design and optimization of such steel.This study investigates the evolu-tion of the rust layer on high-Cr-content weathering bridge steel,using an atmospheric corrosion monitoring(ACM)sensor and big data mining techniques in a simulated tropical marine atmosphere.Results reveal that the protective properties of the rust layer follow a peri-odic pattern of“ascending–constant”rather than a continuous ascending.Correlation analysis indicates that this phenomenon is attributed to the introduction of Cr,which promotes the formation of FeCr_(2)O_(4) in the rust layer.FeCr_(2)O_(4) helps prevent chloride ions from penetrating the rust layer,exerting a protective effect.These findings provide a strong scientific foundation for the design and improvement of new high-Cr-content weathering bridge steels.展开更多
Recycling plastic waste into triboelectric nanogenerators(TENGs)presents a sustainable approach to energy harvesting,self-powered sensing,and environmental remediation.This study investigates the recycling of polyviny...Recycling plastic waste into triboelectric nanogenerators(TENGs)presents a sustainable approach to energy harvesting,self-powered sensing,and environmental remediation.This study investigates the recycling of polyvinyl chloride(PVC)pipe waste polymers into nanofibers(NFs)optimized for TENG applications.We focused on optimizing the morphology of recycled PVC polymer to NFs and enhancing their piezoelectric properties by incorporating ZnO nanoparticles(NPs).The optimized PVC/0.5 wt%ZnO NFs were tested with Nylon-6 NFs,and copper(Cu)electrodes.The Nylon-6 NFs exhibited a power density of 726.3μWcm^(-2)—1.13 times higher than Cu and maintained 90%stability after 172800 cycles,successfully powering various colored LEDs.Additionally,a 3D-designed device was developed to harvest energy from biomechanical movements such as finger tapping,hand tapping,and foot pressing,making it suitable for wearable energy harvesting,automatic switches,and invisible sensors in surveillance systems.This study demonstrates that recycling polymers for TENG devices can effectively address energy,sensor,and environmental challenges.展开更多
This paper focuses on the preparation of rare earth oxide products from rare earth chloride solutions during the rare earth extraction and separation processes,as well as the recycling of magnesium chloride solutions....This paper focuses on the preparation of rare earth oxide products from rare earth chloride solutions during the rare earth extraction and separation processes,as well as the recycling of magnesium chloride solutions.It proposes the idea of introducing spray pyrolysis technology into the rare earth extraction and separation processes.This paper briefly describes the development history of chloride spray pyrolysis technology,focusing on the research status and application progress of rare earth chloride solution and magnesium chloride solution spray pyrolysis technology,as well as spray pyrolysis equipment.The paper also analyzes the challenges and technical intricacies associated with applying spray pyrolysis technology to chloride solutions in the rare earth extraction and separation processes.Additionally,it explores future trends and proposes strategies to facilitate the full recycling of acids and bases,streamline the process flow,and enhance the prospects for green and low-carbon rare earth metallurgy.展开更多
文摘A method for the rapid reduction of acyl chlorides to aldehydes was developed using pinacolborane(HBpin)as the reducing agent.The method exhibits excellent generality for both aromatic and aliphatic substrates,affording aldehydes in isolated yields of up to 88%with broad functional group tolerance,including cyano,halogen,alkenyl,ketone,and ester groups.Moreover,the method enables gram-scale aldehyde synthesis and shows high efficiency in reducing in situ generated acyl chlorides,thereby enhancing its synthetic practicality.
文摘A series of novel nitrogen-containing heterocyclic compounds based on the nitidine chloride(NC)core were designed and synthesized through the Heck reaction.The derivatives included sulfonamide analogs,piperazine analogs,and thiazole analogs.Their antiproliferative activities were evaluated against four tumor cell lines(HL-60,HeLa,HepG2,H460)and normal liver cells(LO2)via in vitro cytotoxicity assays.The results showed that sulfonamide derivatives selectively inhibited HeLa cells.Among them,2,4,6-trimethyl-N-(6-(6-oxobenzo[c]phenanthridin-5(6H)-yl)hexyl)benzenesulfonamide(14c)exhibited the most potent activity[IC50=(1.83±0.24)μmol/L],comparable to nitidine chloride and cisplatin,while showing no significant toxicity toward LO2 cells.Piperazine analogs displayed broad inhibitory effects against tumor cells but accompanied by cytotoxicity,whereas thiazole analogs were largely inactive.Mechanistic studies revealed that the representative compound 14c exerted antitumor effects by inducing apoptosis and cell cycle arrest in HeLa cells,manifested by a significant reduction in the proportion of G0/G1 phase cells(69.90%±5.80%)and promotion of S/G2/M phase progression.The topoisomerase I(Topo I)inhibition assay demonstrated that the piperazine derivative effectively inhibits Topo I activity.Overall,compound 14c emerges as a promising antitumor candidate with high efficacy and low toxicity,demonstrating that nitrogen-containing hybridization of nitidine chloride provides a potential strategy for developing novel Topo I inhibitors.
基金financially assisted to Timanshi Chansoriya of the fellowship grant of UGC-NFPwD,New Delhi sanctioned vide UGC F.No.01-01/2019-Sch dated 06.11.2020(Serial No.352 ID:NFPWD-2018-20-UTP-6522).
文摘Objective:To investigate the sterilizing potential of zinc gluconate,calcium chloride(CaCl_(2))and cadmium chloride(CdCl_(2))following a single intratesticular administration in adult male rats.Methods:60 adult male Wistar albino rats(Rattus norvegicus)weighing 160-200 g and aged 5-6 months randomly received a single intratesticular injection of normal saline(Group A),zinc gluconate 13.3 mg/mL plus L-Arginine(Group B),20%CaCl_(2)(Group C),and CdCl_(2)0.5 mg/kg body weight plus ethylenediaminetetraacetic acid(EDTA)(Group D),respectively,along the entire route from the caudoventral aspect of each testis.They were euthanized up to 180 days to evaluate reproductive tract toxicology.Results:The reproductive organ weights were markedly reduced,with testes severely atrophied in group B,pea-sized and stony hard in group C,and moderately reduced in group D.Azoospermia was evident in groups B and C,while sperm concentration was reduced to<1 million/mL with zero sperm motility in group D.Rats of groups B and C failed to show mounting and copulatory behaviour.A completely disorganized mesh of cellular elements was observed in the seminiferous tubules of group B,while pyknotic germ cell and arrest of spermatogenesis,exfoliated germ cells,occasional syncytial bodies and smaller Leydig cells were evident in groups C and D.Significantly reduced testosterone levels,increased luteinizing hormone(LH)and follicle-stimulating hormone(FSH)levels,returned to normal after 90 days in group D.Conclusions:Zinc gluconate and CaCl_(2)injections severely affected the reproductive organs and libido and rats treated with CdCl_(2)exhibited diminished spermatogenesis with normal libido.Thus,the need-based selection of intratesticular agents should consider their distinct effects on spermatogenesis,libido,and hormonal balance for achieving targeted sterilization outcomes.
基金supported by Research Center for Industries of the Future(No.WU2022C034)at Westlake University,China。
文摘The molten CaCl_(2)−CaMoO_(4) system was investigated,and the electrodeposition of protective Mo coatings on Ni plates was demonstrated.The results confirm the high solubility of solid CaMoO_(4) and the electrochemical reactivity of MoO_(4)^(2-)ions in molten CaCl_(2).The eutectic temperature and composition of the system are identified as 1021 K and 4.74 wt.%CaMoO_(4),respectively.Under constant-current electrolysis conditions of−10 mA/cm^(2) at 1123 K,uniform and dense Mo coatings are obtained on Ni plates with up to 90.31%efficiency.Increasing the current density raises the overpotential,leading to refined grains and decreased roughness.The Mo-coated Ni plate exhibits a significant improvement in hardness and corrosion resistance.Microhardness increases from HV 46.00 to HV 215.10 after coating,and the corrosion rate in a 20 wt.%NaCl solution at room temperature decreases to 0.1%that of the bare plate.These findings enhance our understanding of the molten CaCl_(2)–CaMoO_(4) system and emphasize the potential of innovative Mo coating technologies.
基金supported by the National Key R&D Program of China(No.2023YFA1507500)the Nation-al Natural Science Foundation of China(No.52373159)。
文摘Green solvent pretreatment of biomass represents a promising ap-proach for enhancing the econom-ic value of lignocellulosic deriva-tives.In this study,corncob biomass was treated with a diol-based deep eutectic solvent(DES)under mild conditions,facilitating efficient cellulose separation.The extracted cellulose was subsequently used to fabricate cellulose hydrogels in an aqueous zinc chloride solution.The resulting hydrogel exhibited a“water-in-salt”effect due to the high concentration of ZnCl_(2).Leveraging the antifreeze properties of sorbitol,the system demon-strated outstanding low-temperature electrochemical performance,including a broad operat-ing voltage window and an ionic conductivity of 38.4 mS·cm^(-1)at-20℃.At 20℃,the de-vice achieved an energy density of 206 Wh·kg^(-1)and a power density of 2701.05 W·kg^(-1)at a current density of 1 A·g^(-1).Moreover,the flexible zinc-ion hybrid supercapacitor(ZHSC)maintained 89%of its capacitance and nearly 100%Coulombic efficiency after 5500 cycles at 20℃.This work not only advances the development of zinc-ion energy storage devices but al-so establishes a new paradigm for the green and direct utilization of biomass-derived materi-als.
基金supported by the National Natural Science Foundation of China(No.32170121).
文摘Benzalkonium chloride(BAC)is widely employed as a broad-spectrum biocide and has emerged as a significant environmental pollutant.Polymyxin B(PB)serves as the last-line defense for the treatment of Gram-negative pathogens.Previous studies reported that BAC-adapted Pseudomonas aeruginosa increased the tolerance to PB.Herein,we present the novel finding that the combination of BAC and PB exhibited synergistic antibacterial effects against P.aeruginosa.Time-killing assay demonstrated a significant reduction in bacterial cell viability.Scanning electron microscopy,zeta potential analysis,hydrophobicity measurements,and fluorescence probe analyses collectively revealed severe disruption of the cell envelope and membrane potential induced by the combination of BAC and PB.Transcriptomic analysis revealed that the BAC-PB combination notably downreg-ulated the expression of genes involved in lipid A modification and cell envelope production,including phoPQ,pmrAB,bamABCDE,lptABCDEG,lolB,yidC,and murJ.Additionally,the combination group exhibited augmented production of reactive oxygen species and diminished ATP synthesis.The expression of the genes associated with substance metabolism and energy generation was significantly impeded.This study provides significant implica-tions for the interactions of biocides and antibiotics on Gram-negative pathogens,while also addressing antibiotic resistance and developing the external treatment strategy for Pseudomonas-infected wounds and burns.
基金supported by the National Natural Science Foundation of China(No.22209115,52472226,and U23A20573)the Key Research and Development Program of Shandong Province(No.2022CXGC010305)+2 种基金Guangdong Basic and Applied Basic Research Foundation(No.2025A1515011809,2023B1515120022 and 2022B1515120001)Shenzhen Science and Technology Innovation Program(No.RCBS20231211090522040,KJZD20240903095610014,and KJZD20240903095712017)the High-Level Professional Team in Shenzhen(KQTD20210811090045006)。
文摘Seawater electrolysis is an appealing route toward sustainable hydrogen production,yet its practical deployment is hindered by severe chloride-induced corrosion and parasitic chlorine oxidation.Here,we report noble metal-doped NiV layered double hydroxides(LDHs)that integrate electronic modulation with a dual chloride confinement mechanism.Ir incorporation simultaneously establishes strong Ir-Cl coordination and dynamically regenerated VO_(4)^(3-)layers,producing an adaptive electrostatic shield that effectively suppresses chloride penetration.As a result,Ir-NiV LDH delivers nearly 100%oxygen evolution reaction selectivity and outstanding stability over2750 h at 500 mA cm^(-2).Meanwhile,Ru doping optimizes the hydrogen evolution pathway,enabling a low overpotential of 195 mV and>2350 h durability.When paired in a twso-electrode electrolyzer,the Ru-NiVLDH‖Ir-NiVLDH system exhibits industrial-level performance and unprecedented robustness in alkaline seawater.This dual chloride confinement concept provides a general framework for catalyst design in corrosive ionic environments,extending beyond seawater splitting toward other electrochemical energy conversion processes.
基金Funded by the National Natural Science Foundation of China(No.51708290)the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)。
文摘The utilization of discarded coral debris in cementitious material is a prominent research area for island construction projects.The aim of this study is to explore the use of environment-friendly cement and waste coral sand in the preparation of coral mortar,while investigating its performance when exposed to a chloride environment.Three types of low-carbon cements were employed,such as rapid hardening sulphoaluminate(RCSA)cement,high belite sulphoaluminate(HBCSA)cement,and slag sulphoaluminate cement(SSC).The coulomb electric flux,mechanical properties,free chloride content,and mass change of the cement mortar under exposed to 3.5 wt%NaCl solution were examined at various time intervals.X-ray diffraction analysis was conducted to identify the mineral phases present in the mortar samples.The results demonstrate that the flexural and compressive strength of the mortar consistently increase throughout the 360 days chloride exposure period.Incorporating coral sand into SSC-based mortars enhances their compressive strength from day 28 up until day 360.However,it adversely affects the strength of HBCSA-based mortars.The behavior of mortars exposed to a chloride-rich environment is closely associated with the amount of C-S-H gel present within them.SSC generates a significant quantity of C-S-H gel which possesses a large specific surface area capable of absorbing more chloride ions thereby reducing their concentration within the mortar matrix as well as increasing its mass and improving resistance against chloride ion penetration.
基金financially supported by Shenzhen Science and Technology Program(JCYJ20240813142900001)Guangdong Provincial Key Laboratory of New Energy Materials Service Safety。
文摘Chloride-based solid electrolytes are considered promising candidates for next-generation high-energy-density all-solid-state batteries(ASSBs).However,their relatively low oxidative decomposition threshold(~4.2 V vs.Li^(+)/Li)constrains their use in ultrahighvoltage systems(e.g.,4.8 V).In this work,ferroelectric Ba TiO_(3)(BTO)nanoparticles with optimized thickness of~50-100 nm were successfully coated onto Li_(2.5)Y_(0.5)Zr_(0.5)Cl_(6)(LYZC@5BTO)electrolytes using a time-efficient ball-milling process.The nanoparticle-induced interfacial ionic conduction enhancement mechanism contributed to the preservation of LYZC’s high ionic conductivity,which remained at 1.06 m S cm^(-1)for LYZC@5BTO.Furthermore,this surface electric field engineering strategy effectively mitigates the voltage-induced self-decomposition of chloride-based solid electrolytes,suppresses parasitic interfacial reactions with single-crystal NCM811(SCNCM811),and inhibits the irreversible phase transition of SCNCM811.Consequently,the cycling stability of LYZC under high-voltage conditions(4.8 V vs.Li+/Li)is significantly improved.Specifically,ASSB cells employing LYZC@5BTO exhibited a superior discharge capacity of 95.4 m Ah g^(-1)over 200 cycles at 1 C,way outperforming cell using pristine LYZC that only shows a capacity of 55.4 m Ah g^(-1).Furthermore,time-of-flight secondary ion mass spectrometry and X-ray photoelectron spectroscopy analysis revealed that Metal-O-Cl by-products from cumulative interfacial side reactions accounted for 6% of the surface species initially,rising to 26% after 200 cycles in pristine LYZC.In contrast,LYZC@5BTO limited this increase to only 14%,confirming the effectiveness of BTO in stabilizing the interfacial chemistry.This electric field modulation strategy offers a promising route toward the commercialization of high-voltage solid-state electrolytes and energy-dense ASSBs.
基金supported by the National Natural Science Foundation of China(22125103)the Science and Technology Commission of Shanghai Municipality(No.22JC140100)PhD Scientific Research and Innovation Foundation of the Education Department of Hainan Province Joint Project of Sanya Yazhou Bay Science and Technology City(grant number HSPHDSRF-2024-14-003).
文摘Polyvinyl chloride(PVC)poses persistent environmental and recycling challenges due to its high chlorine content,complex additives,and structural resistance to degradation.Recent research has shifted focus from traditional disposal methods toward chemically informed strategies that valorize PVC within the framework of a circular economy.This review systematically summarizes three emerging pathways for PVC transformation.The first involves catalytic deconstruction into small molecules such as chlorinated olefins,hydrocarbons,and oxygenates through thermal,photocatalytic,and electro-assisted processes.The second explores backbone-preserving reconstruction into functional materials,including porous carbons,membranes,ion-conducting films,and vitrimer-type polymers by leveraging selective dechlorination and structural reprogramming.The third addresses the co-processing of PVC with mixed plastic wastes through synergistic catalytic systems that tolerate chlorine-rich streams and promote selective transformation.Across all pathways,emphasis is placed on structure-property correlations,chlorine management,additive compatibility,and downstream utility.Summary tables and schematic diagrams are included to compare system efficiencies,product selectivities,and application scopes.By integrating mechanistic understanding with materials innovation,this review highlights how PVC can be reimagined as a tunable molecular platform rather than a persistent pollutant.
基金Natural Science Foundation of Shandong Province,No.ZR2020QH185Scientific Research Nurturing Fund of The First Affiliated Hospital of Shandong First Medical University&Shandong Provincial Qianfoshan Hospital,No.QYPY2020NSFC0803+2 种基金Guangxi Zhuang Autonomous Region Health Commission Scientific Research Project,No.Z-A20220415Guangxi Medical University Teacher Teaching Ability Development Project,No.2022JFA02Guangxi Medical University Undergraduate Education and Teaching Reform Project,No.2023Y05.
文摘BACKGROUND Colorectal cancer(CRC)is the third most common cancer globally,causing over 900000 deaths annually.Risk factors include aging,diet,obesity,sedentary lifestyle,tobacco use,genetic predisposition,and inflammatory bowel disease.Despite current treatments,survival rates for advanced CRC remain low,highlighting the need for better therapeutic strategies.AIM To evaluate both the clinical significance and the pathological implications of the Kinesin family member 14(KIF14)expression within CRC specimens.Additionally,this study aims to investigate the interaction between nitidine chloride(NC)and KIF14,considering their potential as therapeutic targets.METHODS The expression of the KIF14 protein in CRC was analyzed using immunohistochemical staining.The integration of multicenter high-throughput data facilitated the calculation of the standardized mean difference(SMD)for KIF14 mRNA levels.The assessment of clinical and pathological impact was enhanced by analyzing combined receiver operating characteristic curves,along with measures of sensitivity,specificity,and likelihood ratios.Additionally,clustered regularly interspaced short palindromic repeats knockout screening for cell growth and single-cell sequencing were employed to validate the significance of KIF14 expression in CRC.Survival analysis established the prognostic value of KIF14 in CRC.The molecular mechanism of NC against CRC was elucidated through whole-genome sequencing and enrichment analysis,and molecular docking was utilized to explore the targeting affinity between NC and KIF14.RESULTS KIF14 was highly expressed in 208 CRC patients.Data from 17 platforms involving 2436 CRC samples and 1320 noncancerous colorectal tissue controls indicated that KIF14 expression was significantly higher in CRC samples,with an SMD of 1.92(95%CI:1.49-2.35).The area under the curve was 0.94(95%CI:0.92-0.96),with a sensitivity of 0.85(95%CI:0.78-0.90)and a specificity of 0.90(95%CI:0.85-0.93).The positive and negative likelihood ratios were 8.38(95%CI:5.39-13.02)and 0.17(95%CI:0.11-0.26),respectively.At the single-cell level,significant overexpression of KIF14 was observed in CRC cells(P<0.001),with 35 CRC cell lines dependent on KIF14 for growth.The K-M plots demonstrated that KIF14 possesses prognostic value in CRC patients within the GSE71187 and GSE103679 datasets(P<0.05).Binding energy calculations indicated that KIF14 is a potential target for NC(binding energy:10.3 kcal/mol).CONCLUSION KIF14 promotes the growth of CRC cells and acts as an oncogenic factor,potentially serving as a therapeutic target for NC in the treatment of CRC.
基金funded by Natural Science Foundation of Xinjiang Uygur Autonomous Region(2022D01F60)Tianshan Talents Plan of Xinjiang Uygur Autonomous Region(2022TSYCJC0001)+2 种基金National Natural Science Foundation of China(22368051)Science and Technology Plan Project of Karamay(20232023hjcxrc0038 and 2024hjcxrc0118)Projects of Talents Recruitment of GDUPT(2023rcyj2005)。
文摘In the extraction of potassium from salt lakes,Mg is abundant in the form of bischofite(MgCl_(2)·6H_(2)O),which is not utilized effectively,resulting in the waste of resources and environmental pressure.Anhydrous MgCl_(2) prepared by the dehydration of bischofite is a high-quality raw material for the production of Mg.However,direct calcination of MgCl_(2)·6H_(2)O in industrial dehydration processes leads to a large amount of hydrolysis.The by-products are harmful to the electrolysis process of Mg,causing problems such as sludge formation,low current efficiency,and corrosion in the electrodes.To obtain high-purity anhydrous MgCl_(2),different advanced dehydration processes have been proposed.In this review,we focus on the recent progress of the dehydration process.Firstly,we discuss the molecular structure of MgCl_(2)·6H_(2)O and explain the reason why much hydrolysis occurs in dehydration.Secondly,we introduce the specific dehydration processes,mainly divided into direct dehydration processes and indirect dehydration processes.The direct dehydration processes are classified into gas protection heating and molecular sieve dehydration process.Indirect dehydration processes are classified into thermal dehydration of ammonium carnallite(NH_(4)Cl·MgCl_(2)·6H_(2)O),thermal dehydration of potassium carnallite(KCl·MgCl_(2)·6H_(2)O),thermal decomposition of the[HAE]Cl·MgCl_(2)·6H_(2)O,organic solvent distillation,ionic liquid dehydration process and ammonia complexation process.In the meanwhile,purity of anhydrous MgCl_(2) of each dehydration process,as well as the advantages and disadvantages,is discussed.The characteristics of different processes with a simple economic budget are also given in this paper.Finally,the main challenges are evaluated with suggested directions in the future,aiming to guide the synthesis of high-purity anhydrous MgCl_(2).
文摘Patients with advanced liver cirrhosis and liver failure frequently experience abnormalities in their serum electrolyte levels.In such patients,hyponatremia has been identified as a predictor of poor outcomes.However,emerging evidence suggests that serum chloride may provide even better prognostic information in similar situations.Hypochloremia,characterised by low serum chloride levels,has been linked to increased mortality,exacerbated organ dysfunction,and higher requirements for renal replacement therapy and vasopressors in various critical conditions,including advanced liver diseases.The pathophysiological mecha-nisms underlying the association between low serum chloride levels and poor outcomes in liver disease appear to involve complex interactions among electro-lyte imbalances,renal function,and systemic hemodynamics.Chloride dysregu-lation can influence renal salt-sensing mechanisms,disrupt acid-base homeostasis,and exacerbate complications such as hepatic encephalopathy and hepatorenal syndrome.This article aims to elucidate the prognostic significance of lower serum chloride levels in patients with advanced liver disease.By reviewing recent literature and analysing clinical data,we seek to establish serum chloride as an underutilised but valuable prognostic marker.Understanding the role of serum chloride in liver disease could enhance prognostic accuracy,refine treatment strategies,and ultimately improve patient outcomes.
基金financially supported by the New Jersey Department of Environmental ProtectionUS EPA。
文摘In this study,synthetic wastewater containing 110μg/L arsenate(As(V)),0-20 mg/L fulvic acid(FA),and 0-12.3 mg/L phosphate was treated with 3 mg/L Fe3+.The mechanisms of FA and phosphate effects on As(V)removal by ferric chloride were determined using 0.22-10μm pore-size filtration,Zetasizer analysis,and in situ flow through cell ATR-FTIR.The results showed that up to 20mg/L FA had almost no effect on the solubility of ferric hydroxide precipitates and adsorption of As(V)by the precipitates.When FA concentration increased from 0 to 20 mg/L,the adsorption of FA led to higher negative zeta potential of the precipitates and the strong electrostatic repulsion between the precipitates decreased the particle size of ferric hydroxide flocs fromlarger than 10μmto smaller than 1μm.In the presence of 5-20 mg/L FA,46%-63%As(V)was adsorbed onto the flocs with particle size in the range of 0.45-1μm.On the other hand,phosphate did not affect the size of ferric hydroxide flocs and significantly increased the dissolved As(V)concentration because it competed with As(V)for adsorption sites on ferric hydroxide precipitates.The addition of 5mg/L cationic organic flocculant significantly reduced the effect of FA on As(V)removal,but did not reduce the effect of phosphate on As(V)removal.The findings of this study will help develop effective arsenic treatment techniques and predict the mobility of arsenic in the environment.
基金financially supported by the National Natural Science Foundation of China(Nos.52104319 and 52374323).
文摘Ductile iron pipes,a staple in global urban water supply systems,face a significant challenge in the form of corrosion,which threatens water quality and pipeline integrity.The deterioration mechanism of shrink-age defects on the passivation behavior of ductile iron in simulated concrete pore solution was investi-gated.The results indicated that shrinkage defects increase donor density and reduce the threshold value of chlorine concentration for rupture of ductile iron passion film(CTV)of ductile iron.Defects reduce CTV from 1-1.1 wt.%to 0.36-0.4 wt.%.Because the matrix/graphite around the defect has a higher Volta potential difference,the shrinkage defect preferentially corrodes and induces local corrosion of the sur-rounding matrix,while no significant corrosion was observed in the region away from the defect.High lattice distortion and Si segregation around the shrinkage defect improve the driving force of corrosion in thermodynamics.Furthermore,shrinkage defects elevate the content of Fe(Ⅲ)compounds in the passive film,without compromising its duplex structure.These defects accelerate the nucleation and growth of the passive film,but generate more cation interstitials.This variation of chemical composition of passive film compromises the film’s integrity and protective properties,attributable to a potential mechanism of micro-environmental acidification and the synergistic effects of shrinkage defect-graphite-matrix multiple micro-galvanic couples.
基金the National Natural Science Foundation of China(82070928 and 82171026).
文摘Objective:To investigate the anti-inflammatory,antioxidant,and goblet cell-stimulating effects of a suspension of Ophiopogon japonicus(L.f.)Ker Gawl.(O.japonicus,Mai Dong)extract combined with hyaluronic acid(HA)in the mouse model with dry eye disease(DED).Methods:A DED mouse model was induced using benzalkonium chloride(BAK),followed by treatment with O.japonicus extract-containing eye drops at varying concentrations.Experimental groups included a normal control,a DED model control,a positive control,and an O.japonicus extract-treated group.Corneal fluorescein staining and tear break-up time(TBUT)were used to assess tear film stability and ocular surface integrity.Enzyme-linked immunosorbent assay(ELISA)measured inflammatory factor levels in corneal and conjunctival tissues,whereas Western blot(WB)analyzed key antioxidant and inflammatory markers,including nuclear factor erythroid 2-related factor(2Nrf2)and heme oxygenase 1(HO-1).Periodic acid-schiff(PAS)staining and immunofluorescence were used to evaluate goblet cell density and mucin secretion.Results:O.japonicus extract significantly improved corneal damage,reduced fluorescein staining scores,prolonged TBUT,and increased tear secretion.It downregulated inflammatory markers,including interleukin-8(IL-8),interleukin-1β(IL-1β),and interferon-g(IFN-γ)while upregulating Nrf2,HO-1,and the interleukin-13(IL-13)/IFN-γ ratio,alleviating oxidative stress and inflammation.PAS staining showed increased conjunctival goblet cell density and restored mucin secretion,enhancing tear film stability.Conclusion:O.japonicus extract demonstrated significant anti-inflammatory,antioxidant,and goblet cell-stimulating effects in a DED model,with good biocompatibility and promising therapeutic potential.Future research should optimize extraction processes and validate their efficacy and safety in clinical settings.
基金supported by the National Natural Science Foundation of China(No.52171063).
文摘The rust layer is a critical factor in determining the corrosion resistance performance of weathering bridge steel.Understanding the evolution mechanism of this rust layer is fundamental for the design and optimization of such steel.This study investigates the evolu-tion of the rust layer on high-Cr-content weathering bridge steel,using an atmospheric corrosion monitoring(ACM)sensor and big data mining techniques in a simulated tropical marine atmosphere.Results reveal that the protective properties of the rust layer follow a peri-odic pattern of“ascending–constant”rather than a continuous ascending.Correlation analysis indicates that this phenomenon is attributed to the introduction of Cr,which promotes the formation of FeCr_(2)O_(4) in the rust layer.FeCr_(2)O_(4) helps prevent chloride ions from penetrating the rust layer,exerting a protective effect.These findings provide a strong scientific foundation for the design and improvement of new high-Cr-content weathering bridge steels.
基金supported by the research projects AP23486880 from the Ministry of Higher EducationScience of the Republic of Kazakhstan and 111024CRP2010,20122022FD4135 from Nazarbayev University.
文摘Recycling plastic waste into triboelectric nanogenerators(TENGs)presents a sustainable approach to energy harvesting,self-powered sensing,and environmental remediation.This study investigates the recycling of polyvinyl chloride(PVC)pipe waste polymers into nanofibers(NFs)optimized for TENG applications.We focused on optimizing the morphology of recycled PVC polymer to NFs and enhancing their piezoelectric properties by incorporating ZnO nanoparticles(NPs).The optimized PVC/0.5 wt%ZnO NFs were tested with Nylon-6 NFs,and copper(Cu)electrodes.The Nylon-6 NFs exhibited a power density of 726.3μWcm^(-2)—1.13 times higher than Cu and maintained 90%stability after 172800 cycles,successfully powering various colored LEDs.Additionally,a 3D-designed device was developed to harvest energy from biomechanical movements such as finger tapping,hand tapping,and foot pressing,making it suitable for wearable energy harvesting,automatic switches,and invisible sensors in surveillance systems.This study demonstrates that recycling polymers for TENG devices can effectively address energy,sensor,and environmental challenges.
基金supported by the National Key Research and Development Program of China(2022YFB3504501)the National Natural Science Foundation of China(52274355)。
文摘This paper focuses on the preparation of rare earth oxide products from rare earth chloride solutions during the rare earth extraction and separation processes,as well as the recycling of magnesium chloride solutions.It proposes the idea of introducing spray pyrolysis technology into the rare earth extraction and separation processes.This paper briefly describes the development history of chloride spray pyrolysis technology,focusing on the research status and application progress of rare earth chloride solution and magnesium chloride solution spray pyrolysis technology,as well as spray pyrolysis equipment.The paper also analyzes the challenges and technical intricacies associated with applying spray pyrolysis technology to chloride solutions in the rare earth extraction and separation processes.Additionally,it explores future trends and proposes strategies to facilitate the full recycling of acids and bases,streamline the process flow,and enhance the prospects for green and low-carbon rare earth metallurgy.
