Graphene nanoplatelets(GNPs)have attracted tremendous interest due to their unique properties and bonding capabilities.This study focuses on the effect of GNP dispersion on the mechanical,thermal,and morphological beh...Graphene nanoplatelets(GNPs)have attracted tremendous interest due to their unique properties and bonding capabilities.This study focuses on the effect of GNP dispersion on the mechanical,thermal,and morphological behavior of GNP/epoxy nanocomposites.This study aims to understand how the dispersion of GNPs affects the properties of epoxy nanocomposite and to identify the best dispersion approach for improving mechanical performance.A solvent mixing technique that includes mechanical stirring and ultrasonication was used for producing the nanocomposites.Fourier transform infrared spectroscopy was used to investigate the interaction between GNPs and the epoxy matrix.The measurements of density and moisture content were used to confirm that GNPs were successfully incorporated into the nanocomposite.The findings showed that GNPs are successfully dispersed in the epoxy matrix by combining mechanical stirring and ultrasonication in a single step,producing well-dispersed nanocomposites with improved mechanical properties.Particularly,the nanocomposites at a low GNP loading of 0.1 wt%,demonstrate superior mechanical strength,as shown by increased tensile properties,including improved Young's modulus(1.86 GPa),strength(57.31 MPa),and elongation at break(4.98).The nanocomposite with 0.25 wt%GNP loading performs better,according to the viscoelastic analysis and flexural properties(113.18 MPa).Except for the nanocomposite with a 0.5 wt%GNP loading,which has a higher thermal breakdown temperature,the thermal characteristics do not significantly alter.The effective dispersion of GNPs in the epoxy matrix and low agglomeration is confirmed by the morphological characterization.The findings help with filler selection and identifying the best dispersion approach,which improves mechanical performance.The effective integration of GNPs and their interaction with the epoxy matrix provides the doorway for additional investigation and the development of sophisticated nanocomposites.In fields like aerospace,automotive,and electronics where higher mechanical performance and functionality are required,GNPs'improved mechanical properties and successful dispersion present exciting potential.展开更多
Microalgae,a sustainable source of multi beneficial components has been discovered and could be utilised in pharmaceutical,bioenergy and food applications.This study aims to investigate the sugaring-out effect on the ...Microalgae,a sustainable source of multi beneficial components has been discovered and could be utilised in pharmaceutical,bioenergy and food applications.This study aims to investigate the sugaring-out effect on the recovery of protein from wet green microalga,Chlorella sorokiniana CY1 which was assisted with sonication.A comparison of monosaccharides and disaccharides as one of the phaseforming constituents shows that the monosaccharides,glucose was the most suitable sugar in forming the phases with acetonitrile to enhance the production of protein(52% of protein).The protein productivity of microalgae was found to be significantly influenced by the volume ratio of both phases,as the yield of protein increased to 77%.The interval time between the sonication as well as the sonication modes were influencing the protein productivity as well.The optimum protein productivity was obtained with 10s of resting time in between sonication.Pulse mode of sonication was suitable to break down the cell wall of microalgae compared to continuous mode as a lower protein yield was obtained with the application of continuous mode.The optimum condition for protein extraction were found as followed:200g/L glucose as bottom phase with volume ratio of 1:1.25,10s of resting time for ultrasonication,5s of ultrasonication in pulse mode and 0.25g of biomass weight.The high yield of protein about 81% could be obtained from microalgae which demonstrates the potential of this source and expected to play an important role in the future.展开更多
Soybean is a widely planted genetically modified crop around the world. However, it is still one of the most recalcitrant crops for genetic transformation due to the difficulty of regeneration via organogenesis and so...Soybean is a widely planted genetically modified crop around the world. However, it is still one of the most recalcitrant crops for genetic transformation due to the difficulty of regeneration via organogenesis and some factors that affect the transformation efficiency. The percentages of resistant bud formation and transient expression efficiency are important indexes reflecting the regeneration and transformation efficiency of soybean. In this study, the percentages of resistant bud formation and transient expression of 13-glucuronidase (GUS) were compared after treatment with sonication or surfactant and co-treatment with both. The results showed that treatment with either sonication or surfactant increased the percentage of resistant bud formation and transient expression efficiency. The highest percentages were acquired and significantly improved when cotyledon node explants were co-treated with sonication for 2 s and surfactant at 0.02% (v:v) using two different soybean genotypes, Jack and Zhonghuang 10. The improved transformation efficiency of this combination was also evaluated by development of herbicide-tolerant soybeans with transformation efficiency at 2.5-5.7% for different geno- types, which was significantly higher than traditional cotyledonary node method in this study. These results suggested that co-treatment with surfactant and sonication significantly improved the percentages of resistance bud formation, transient expression efficiency and stable transformation efficiency in soybean.展开更多
The effect of sonication pretreatment condition on Eucheuma cottonii and Gelidium amansii seaweed towards agar extraction wae studied.Four parameters were changed during sonication to investigate the effects on agar y...The effect of sonication pretreatment condition on Eucheuma cottonii and Gelidium amansii seaweed towards agar extraction wae studied.Four parameters were changed during sonication to investigate the effects on agar yield and quality.These parameters include the time interval,concentration ratio,frequency,and intensity.The highest amount of agar extracted from Eucheuma cottonii species could be obtained from the time interval of 30min,seaweed weight to solvent volume ratio of 1:20,the frequency of 35Hz,and the sonication power intensity of 30%.For Gelidium amansii species,the best agar yield also could be obtained from the time interval of 30 min,1:20 of seaweed weight to water volume ratio,the frequency of 35Hz,and power intensity of 30%.From the experiment,sonication pretreatment signifi cantly influenced the yield and properties of extracted agar.The sonication with autoclaved seaweed produced agar containing less sulfate content,which is an excellent chemical property for gel electrophoresis applications.The gelstrength of sonication with autoclaving for both seaweeds,Eucheuma and Gelidium species was the highest among those by sonication with direct heating,which proved that sonication pretreatment with autoclaving could enhance the physical properties of the agar.展开更多
The syntheses of α-hydroxyarylacetic acids with a good yield in the presence of different phase transfer catalysts (PTC) under sonication were studied. The results obtained are superior to those by other similar met...The syntheses of α-hydroxyarylacetic acids with a good yield in the presence of different phase transfer catalysts (PTC) under sonication were studied. The results obtained are superior to those by other similar methods. The data show that β-cyclodextrin (β-CD) is more efficient than other PTC. The preliminary reaction conditions are also discussed.展开更多
The influence of 40 kHz ultrasound radiation on the passivation behavior of zinc in 7 M KOH is presented. The results of potentiodynamic and potentiostatic measurements combined with the current oscillation caused by ...The influence of 40 kHz ultrasound radiation on the passivation behavior of zinc in 7 M KOH is presented. The results of potentiodynamic and potentiostatic measurements combined with the current oscillation caused by the irradiation were examined to explain the mechanism and the sequence of formation of the oxide films during passivation. In this study, sonication was also used to investigate both effects of the passivation duration and passivation potential on the structure of the oxide layers; the adherence of the layers was found to depend strongly on both parameters. Scanning electron microscopy-energy dispersive X-ray (SEM-EDX) analysis of the zinc surface provided complementary information on the oxide layer composition and structure.展开更多
Lactobacillus delbrueckii ssp. bulgaricus is a widely used bacterium for the production of some fermented dairy products. Mild sonication intensity condition is a non-destructive technique that uses sound waves to cau...Lactobacillus delbrueckii ssp. bulgaricus is a widely used bacterium for the production of some fermented dairy products. Mild sonication intensity condition is a non-destructive technique that uses sound waves to cause cavitation in aqueous solutions and may improve the permeability of membranes, speed up the transfer of substrates and promote cellular growth and propagation. The objective was to determine the effect of mild sonication intensities at different temperatures on growth, bile tolerance and protease activity of Lactobacillus delbrueckii ssp. bulgaricus LB-12. The treatments were four sonication intensities (8.07, 14.68, 19.83 and 23.55 W/cm2) randomized at three different temperatures (4℃, 22℃ and 40℃). The energy input (1500 J) was kept constant in all treatments. Control samples did not receive any sonication treatment. Growth and bile tolerance were determined every 2 h for 12 h of incubation. Protease activity was determined at 0, 12 and 24 h. Mild sonication conditions included 1) mild sonication intensities, 2) temperatures and 3) times, all three of which played a role in influencing the desirable attributes of Lactobacillus delbrueckii ssp. bulgaricus LB-12. Of all the mild sonication intensities studied, 14.68 W/cm2 had the best overall influence at certain time points forimproving the bile tolerance and growth at 4℃ and protease activity at 40℃. Mild sonication intensity of 23.55 W/cm2 had the best overall influence at certain time points for protease activity of at 22℃. Some mild sonication conditions could be recommended for improvement of some characteristics of Lactobacillus delbrueckii ssp. bulgaricus LB-12.展开更多
This study aims to determine the effect of audiosonic sonication in normal modes on the formation of graphene oxide(GO)fromcarbon rods of zinc-carbon(ZnC)battery wastes.The method used in this study was sonication wit...This study aims to determine the effect of audiosonic sonication in normal modes on the formation of graphene oxide(GO)fromcarbon rods of zinc-carbon(ZnC)battery wastes.The method used in this study was sonication with an audiosonic frequency in normal modes,assisted by a surfactant solution derived from a commercial detergent.A graphite-detergent solutionwas exposed to audiosonicwaves using a frequency of 170 Hz for 3 hwith a pattern on the surface of the solution.The graphite solution was a mixture of 0.8 g of graphite powder and 100 ml of distilled water that was mixed using a blender for 2 min.25 ml of the solution was then taken and dripped with two drops of detergent solution containing 0.2 g detergent powder dissolved into 100 ml distilled water,so that a graphite-detergent solutionwas obtained.The tools used in this study included UV–Visible spectroscopy(UV–Vis),Fourier TransformInfraRed spectroscopy(FTIR),and a Scanning Electron Microscope(SEM).The solution that was audiosonicated showed a strong visible nodal pattern on its surface.The UV–Vis spectroscopy produced absorbance peaks at wavelengths of 225 nmand 270 nm,and the FTIR indicated the presence of OH and C_C functional groups,which suggested the existence of GO.The SEMimages showed GO in the formof coral-like materials.展开更多
The potential inhibition of particulates on sonication of aqueous pollutants was investigated. Sonodegradation of bromobenzene, bromophenolate ion, and 2,4,5-trichlorobiphenyl were studied in the presence of various t...The potential inhibition of particulates on sonication of aqueous pollutants was investigated. Sonodegradation of bromobenzene, bromophenolate ion, and 2,4,5-trichlorobiphenyl were studied in the presence of various types of particulates suspended in water. Particulates of three different diameters (10 nm, 15 μm, and 35 μm) and two types (silica and polyaromatic resin) were investigated over a wide range of concentrations (0.05 g/L to 10 g/L). The results demonstrated that particulates inhibited sonication only when the target compound sorbed on the solid during sonication and could not partition into cavitation bubbles. The inhibition of the sorbed molecules was almost complete, and relatively independent of the particle concentration within certain ranges. However, the complexity of sonochemistry and particulate-solute matrices precludes a simple universal prediction of the inhibition extent.展开更多
Cell disruption focuses on obtaining a desired bioproduct within a cell, and it is the cell wall that must be disrupted to allow access to the contents of the cell. In animal cells, the plasma membrane is the only bar...Cell disruption focuses on obtaining a desired bioproduct within a cell, and it is the cell wall that must be disrupted to allow access to the contents of the cell. In animal cells, the plasma membrane is the only barrier separating cell contents from the environment. Sound waves from sonication, a mechanical technique for cell disintegration, have been used to disrupt as well as to aggregate cells as a step towards purification of a desired bioproduct. In the present study, an improved sonication process for the high yield of Newcastle disease virus (NDV) propagated in tissue culture was described. DF-I cell was cultured in 25cm^2 T flask. When cells were about 80% confluent, a lentogenic strain of NDV (F strain) was used to infect the cell monolayer. With evident cytopathic effect, cells were subjected to cycles of freeze-thaw before sonicating with varying combinations of amplitude, temperature and time. Cells were sonicated using a water bath Sonicator, Jac Ultrasonic 1505 JEIO TECH 4 KHz. From ANOVA analysis, a significant interaction between sonication time and amplitude was observed. This also corresponds to the highest F value observed.展开更多
This paper reports the most prominent contributions in the field of biodegradable polymeric nanoparticles from poly (lactic-co-glycolic acid) (PLGA) used as a protein/drug delivery. We use a combination of Human Serum...This paper reports the most prominent contributions in the field of biodegradable polymeric nanoparticles from poly (lactic-co-glycolic acid) (PLGA) used as a protein/drug delivery. We use a combination of Human Serum Albumin (HSA)-superparamagnetic iron oxide nanoparticles (SPIONs) loaded PLGA nanoparticles. To obtain protein stabilization, the optimization of each step of synthesis nanoparticle is required. One of the most common problems in encapsulating protein to PLGA nanoparticles is the presence of several challenges as a problem of instability. We explained how the effect of the various sonication processing on the synthesis HSA-SPIONs loaded PLGA nanoparticles would be one of the crucial parameters for stability.展开更多
Mild sonication intensity is an acoustic energy which involves the conversion of electrical signal into a physical vibration modifying the permeability of the cell plasma membrane. The objective of this study was to d...Mild sonication intensity is an acoustic energy which involves the conversion of electrical signal into a physical vibration modifying the permeability of the cell plasma membrane. The objective of this study was to determine the effect of mild sonication intensities at different temperatures on growth, bile tolerance and protease activity of Streptococcus thermophilus. The treatments were four mild sonication intensities (8.07, 14.68, 19.83 and 23.55 W/cm2) randomized at three different temperatures (4°C, 22°C and 40°C). The energy input (1500 J) was kept constant in all treatments. Control samples did not receive any sonication treatment. Growth and bile tolerance were determined every two hours for 12 h of incubation. Protease activity was determined at 0, 12 and 24 h. Mild sonication conditions included a) mild sonication intensities, b) temperatures and c) times, all three of which played a role in influencing the desirable attributes of Streptococcus salivarius ssp. thermophilus ST-M5. Of all the mild sonication intensities studied, 14.68 W/cm2 had the best overall influence at certain time points for improving bile tolerance and growth at 4°C, growth at 22°C and bile tolerance and growth at 40°C of Streptococcus salivarius ssp. thermophilus ST-M5. Mild sonication intensity of 23.55 W/cm2 had the overall best influence at certain time points for protease activity of Streptococcus salivarius ssp. thermophilus ST-M5 at 40°C. Streptococcus thermophilus ST-M5 pretreatment with some mild sonication conditions can be recommended for improvement of some of its characteristics.展开更多
<b style="line-height:1.5;"><span style="font-family:Verdana;">Introduction:</span></b><span style="font-family:'';font-size:10pt;"><span style=&q...<b style="line-height:1.5;"><span style="font-family:Verdana;">Introduction:</span></b><span style="font-family:'';font-size:10pt;"><span style="font-family:Verdana;font-size:12px;"> Low-grade PJI remains a diagnostic dilemma in the medical community. It is mainly caused by low-virulent bacteria that cause chronic infection. This is mainly due to the formation of biofilms on the implant surface. This biofilm formation poses a diagnostic challenge that causes difficulties in the microbiological diagnosis of the infection by conventional culture methods. Sonication culture of implants has proven to be useful for biofilm forming bacteria. Therefore, we examined the evaluation of low-grade PJI using sonication culture methods and searched for influencing factors. </span><b><span style="font-family:Verdana;font-size:12px;">The methods:</span></b><span style="font-family:Verdana;font-size:12px;"> Between October 2016 and November 2019 we retrospectively examined adult patients with suggestive clinical and laboratory findings of low-grade PJI. The patient's medical history, demographic information, prosthesis type, laboratory findings and length of hospital stay were collected. The results of the microbiological culture were divided into the results of the conventional preoperative and intraoperative culture method and the results of the sonication. In addition, laboratory chemical diagnostics of the joint punctures and CRP determination were performed. Additionally, the influence of prosthesis design and fixation technique, with and without cement, was investigated. </span><b><span style="font-family:Verdana;font-size:12px;">The Results:</span></b><span style="font-family:Verdana;font-size:12px;"> Fifty-two patients with a mean age of 70.5 years were included in this study. The female population was more frequently affected. The most frequently affected joints were hip and knee. A higher percentage of pathogen detection was found at sonication with 60% of positive cultures, compared to 52% of intraoperative </span></span><span style="line-height:1.5;font-family:Verdana;">and 40% of preoperative </span><span style="line-height:1.5;font-family:Verdana;">conventional positive culture findings. The majority of patients were monomicrobial infections, with Staphylococcus epidermidis being the most frequently detected etiologic pathogen. The sonication culture was best able to detect a polymicrobial infection in 14% of cases compared to 6% of intraoperative and 4% of preoperative conventional cultures. Patients with a polymicrobial infection showed higher CRP values (</span><i style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">P</span></i><span style="line-height:1.5;font-family:Verdana;"> = 0.0172) and longer hospitalization (</span><i style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">P</span></i><span style="line-height:1.5;font-family:Verdana;"> = 0.0017) than monomicrobial infected patients. The results of the intraoperative conventional culture showed the highest congruence with the results of the sonication culture (concordance of 79%) compared to the preoperative culture. An infectious histopathological classification confirmed the microbiological ultrasound findings in 69% of cases with an infectious category. Cemented fixation showed a trend towards less positive microbiological findings, and total hip arthroplasty showed the highest detection of bacteria by sonication culture compared to bicondylar surface knee replacement (</span><i style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">P</span></i><span style="line-height:1.5;font-family:Verdana;"> = 0.0072). </span><b style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">Conclusion:</span></b><span style="line-height:1.5;font-family:Verdana;"> The sonication culture proved to be an important microbiological diagnostic tool, especially for the detection of polymicrobial infections in cases of low-grade PJI. This method has an established place in the diagnosis of low-grade PJI. The prosthesis design and the cemented fixation technique seem to have an influence on the detection of bacteria.展开更多
High hydrostatic pressure is a non-thermal processing technique for extracting functional compounds from herbal plants.This study aims to investigate the effectiveness of the combination of high hydrostatic pressure(H...High hydrostatic pressure is a non-thermal processing technique for extracting functional compounds from herbal plants.This study aims to investigate the effectiveness of the combination of high hydrostatic pressure(HHP),enzymatic hydrolysis,and sonication for extracting wild-simulated ginseng(WSG)to improve yields of major and minor ginsenosides.By using LC-MS/MS analysis,the total ginsenoside yield was enhanced by 25.62%by increasing the pressure of HHP and sonication treatment(HHP-soni)extraction from 100 to 300 MPa.Furthermore,compared to HHP-soni at 100 MPa,adding two commercial food-grade enzymes(Viscozyme and Pectinex)resulted in a 1.23-1.43-fold increase in total ginsenoside contents,as well as a 1.09-1.95-fold increase in the contents of seven major ginsenosides.Similarly,HHP-soni with enzymes increased the yields of five minor ginsenosides(Ro,Rh1,F2,CO,and Rg3)by 1.76-30.24 times compared to extraction with Pectinex at 0.1 MPa.Ginsenoside compound K and protopanaxadiol were detected after extraction using Pectinex with HHP-soni,but not after extraction using Pectinex and sonication at 0.1 MPa.While the contents of the stereoisomers 20(S)-Rg3 and 20(R)-Rg3 were similar after extraction at pressures of 100 and 200 MPa,the 20(S)-Rg3 content was 1.87 times higher than the 20(R)-Rg3 content after HHP treatment at 300 MPa.From the analytical data,we inferred the hydrolytic pathways of the major to minor ginsenosides,and specifically the ginsenoside Rb1 standard,when using Pectinex under experimental conditions.These findings suggest that the combination process of HHP,sonication,and Pectinex treatment could improve the quality of WSG.展开更多
Decellularization to produce bioscaffolds composed of the extracellular matrix(ECM)uses enzymatic,chemical and physical methods to remove antigens and cellular components from tissues.Effective decellularization metho...Decellularization to produce bioscaffolds composed of the extracellular matrix(ECM)uses enzymatic,chemical and physical methods to remove antigens and cellular components from tissues.Effective decellularization methods depend on the characteristics of tissues,and in particular,tissues with dense,complex structure and abundant lipid content are difficult to completely decellularize.Our study enables future research on the development of methods and treatments for fabricating bioscaffolds via decellularization of complex and rigid skin tissues,which are not commonly considered for decellularization to date as their structural and functional characteristics could not be preserved after severe decellularization.In this study,decellularization of human dermal tissue was done by a combination of both chemical(0.05%trypsin-EDTA,2%SDS and 1%Triton X-100)and physical methods(electroporation and sonication).After decellularization,the content of DNA remaining in the tissue was quantitatively confirmed,and the structural change of the tissue and the retention and distribution of ECM components were evaluated through histological and histochemical analysis,respectively.Conditions of the chemical pretreatment that increase the efficiency of physical stimulation as well as decellularization,and conditions for electroporation and sonication without the use of detergents,unlike the methods performed in previous studies,were established to enable the complete decellularization of the skin tissue.The combinatorial decellularization treatment formed micropores in the lipid bilayers of the skin tissues while removing all cell and cellular residues without affecting the ECM properties.Therefore,this procedure can be widely used to fabricate bioscaffolds by decellularizing biological tissues with dense and complex structures.展开更多
Various prctreatments methods including sonication and grinding were perfonned on red seaweed Gelidium amansii for the subsequent extraction ofagarose. The agarose products are usually extracted from agar powder produ...Various prctreatments methods including sonication and grinding were perfonned on red seaweed Gelidium amansii for the subsequent extraction ofagarose. The agarose products are usually extracted from agar powder products from seaweeds. In this study, the agarose was extracted using a direct polyethylene glycol (PEG) method without the need to first process the agar from seaweed. The agar extract was frozen then thawed and mixed directly with PEG solution to precipitate the agarose. The quality of agarose obtained was evaluated through physico-chemical properties analysis which includes spectral technique (FTIR), melting and boiling point, gel strength and sulfate content. These properties were compared with a non-pretreated sample and it was found that the addition of pretreatment steps improved the quality of agarosc but gave a slightly lower yield. The gel strength of pretreated samples was much higher and the sulfate content was lower compared to non-pretreated samples. The best pretreatment method was sonication which gave gel strength of 742 gcm - and sulfate content of 0.63%. The extraction of agarose can be further improved with the use of different neutralizing agents. Pretreating the seaweed shows potential in improving the quality of agarosc from seaweed and can be applied for thture extraction of the agarose.展开更多
Sonic Hedgehog(SHH)信号转导途径,作为调控胚胎发育和组织稳态的重要途径,近年来被发现通过多种机制参与心肌梗死后血管的再生过程。本文系统性地回顾了SHH通路的核心分子机制及其在血管再生中的作用。这些发现为未来针对心肌梗死后血...Sonic Hedgehog(SHH)信号转导途径,作为调控胚胎发育和组织稳态的重要途径,近年来被发现通过多种机制参与心肌梗死后血管的再生过程。本文系统性地回顾了SHH通路的核心分子机制及其在血管再生中的作用。这些发现为未来针对心肌梗死后血管再生的精准干预提供了潜在的靶点。展开更多
In order to better understand sonication, this paper studies the effect of sound frequency on the 2-chlorobiphenyl (2-CB) sonication and analyzes two prevailing hypotheses. Four frequencies 205, 358, 618, and 1071 kHz...In order to better understand sonication, this paper studies the effect of sound frequency on the 2-chlorobiphenyl (2-CB) sonication and analyzes two prevailing hypotheses. Four frequencies 205, 358, 618, and 1071 kHz were tested. The 2-CB degradation kinetics, dechlorination, and inhibition by a free radical scavenger were examined. The results show that sonication effectively degrades 2-CB, and the first order rate constants using 0.4 W/cm3 sonication are 0.214, 0.508, 0.454, and 0.248 min1 at 205, 358, 618, and 1071 kHz, respectively. Good dechlorination was also achieved. 358 kHz frequency provided the most effi-cient 2-CB degradation, but the worst dechlorination, and was most sensitive to the free radical scavenger. Detailed analyses show that thermolysis is relatively stable at these frequencies while the free radical reac-tion depends strongly on the sound frequency.展开更多
基金the Puncak RM for the project under the grant 6733204-13069 to carry out the experiments。
文摘Graphene nanoplatelets(GNPs)have attracted tremendous interest due to their unique properties and bonding capabilities.This study focuses on the effect of GNP dispersion on the mechanical,thermal,and morphological behavior of GNP/epoxy nanocomposites.This study aims to understand how the dispersion of GNPs affects the properties of epoxy nanocomposite and to identify the best dispersion approach for improving mechanical performance.A solvent mixing technique that includes mechanical stirring and ultrasonication was used for producing the nanocomposites.Fourier transform infrared spectroscopy was used to investigate the interaction between GNPs and the epoxy matrix.The measurements of density and moisture content were used to confirm that GNPs were successfully incorporated into the nanocomposite.The findings showed that GNPs are successfully dispersed in the epoxy matrix by combining mechanical stirring and ultrasonication in a single step,producing well-dispersed nanocomposites with improved mechanical properties.Particularly,the nanocomposites at a low GNP loading of 0.1 wt%,demonstrate superior mechanical strength,as shown by increased tensile properties,including improved Young's modulus(1.86 GPa),strength(57.31 MPa),and elongation at break(4.98).The nanocomposite with 0.25 wt%GNP loading performs better,according to the viscoelastic analysis and flexural properties(113.18 MPa).Except for the nanocomposite with a 0.5 wt%GNP loading,which has a higher thermal breakdown temperature,the thermal characteristics do not significantly alter.The effective dispersion of GNPs in the epoxy matrix and low agglomeration is confirmed by the morphological characterization.The findings help with filler selection and identifying the best dispersion approach,which improves mechanical performance.The effective integration of GNPs and their interaction with the epoxy matrix provides the doorway for additional investigation and the development of sophisticated nanocomposites.In fields like aerospace,automotive,and electronics where higher mechanical performance and functionality are required,GNPs'improved mechanical properties and successful dispersion present exciting potential.
基金Supported by the University of Malaya,Kuala Lumpur,Malaysia under SATU joint research scheme(No.ST004-2017)the International Cooperation Seeds Funding of Nanjing Agricultural University(No.2018-AH-04)
文摘Microalgae,a sustainable source of multi beneficial components has been discovered and could be utilised in pharmaceutical,bioenergy and food applications.This study aims to investigate the sugaring-out effect on the recovery of protein from wet green microalga,Chlorella sorokiniana CY1 which was assisted with sonication.A comparison of monosaccharides and disaccharides as one of the phaseforming constituents shows that the monosaccharides,glucose was the most suitable sugar in forming the phases with acetonitrile to enhance the production of protein(52% of protein).The protein productivity of microalgae was found to be significantly influenced by the volume ratio of both phases,as the yield of protein increased to 77%.The interval time between the sonication as well as the sonication modes were influencing the protein productivity as well.The optimum protein productivity was obtained with 10s of resting time in between sonication.Pulse mode of sonication was suitable to break down the cell wall of microalgae compared to continuous mode as a lower protein yield was obtained with the application of continuous mode.The optimum condition for protein extraction were found as followed:200g/L glucose as bottom phase with volume ratio of 1:1.25,10s of resting time for ultrasonication,5s of ultrasonication in pulse mode and 0.25g of biomass weight.The high yield of protein about 81% could be obtained from microalgae which demonstrates the potential of this source and expected to play an important role in the future.
基金supported by the National Tran sgenic Major Program of China (2014ZX08004001)
文摘Soybean is a widely planted genetically modified crop around the world. However, it is still one of the most recalcitrant crops for genetic transformation due to the difficulty of regeneration via organogenesis and some factors that affect the transformation efficiency. The percentages of resistant bud formation and transient expression efficiency are important indexes reflecting the regeneration and transformation efficiency of soybean. In this study, the percentages of resistant bud formation and transient expression of 13-glucuronidase (GUS) were compared after treatment with sonication or surfactant and co-treatment with both. The results showed that treatment with either sonication or surfactant increased the percentage of resistant bud formation and transient expression efficiency. The highest percentages were acquired and significantly improved when cotyledon node explants were co-treated with sonication for 2 s and surfactant at 0.02% (v:v) using two different soybean genotypes, Jack and Zhonghuang 10. The improved transformation efficiency of this combination was also evaluated by development of herbicide-tolerant soybeans with transformation efficiency at 2.5-5.7% for different geno- types, which was significantly higher than traditional cotyledonary node method in this study. These results suggested that co-treatment with surfactant and sonication significantly improved the percentages of resistance bud formation, transient expression efficiency and stable transformation efficiency in soybean.
基金Supported by the University of Malaya under Equitable Society Research Cluster(ESRC)(No.GC002A-15SBS)
文摘The effect of sonication pretreatment condition on Eucheuma cottonii and Gelidium amansii seaweed towards agar extraction wae studied.Four parameters were changed during sonication to investigate the effects on agar yield and quality.These parameters include the time interval,concentration ratio,frequency,and intensity.The highest amount of agar extracted from Eucheuma cottonii species could be obtained from the time interval of 30min,seaweed weight to solvent volume ratio of 1:20,the frequency of 35Hz,and the sonication power intensity of 30%.For Gelidium amansii species,the best agar yield also could be obtained from the time interval of 30 min,1:20 of seaweed weight to water volume ratio,the frequency of 35Hz,and power intensity of 30%.From the experiment,sonication pretreatment signifi cantly influenced the yield and properties of extracted agar.The sonication with autoclaved seaweed produced agar containing less sulfate content,which is an excellent chemical property for gel electrophoresis applications.The gelstrength of sonication with autoclaving for both seaweeds,Eucheuma and Gelidium species was the highest among those by sonication with direct heating,which proved that sonication pretreatment with autoclaving could enhance the physical properties of the agar.
基金Supported by the National Natural Science Foundation of China.
文摘The syntheses of α-hydroxyarylacetic acids with a good yield in the presence of different phase transfer catalysts (PTC) under sonication were studied. The results obtained are superior to those by other similar methods. The data show that β-cyclodextrin (β-CD) is more efficient than other PTC. The preliminary reaction conditions are also discussed.
文摘The influence of 40 kHz ultrasound radiation on the passivation behavior of zinc in 7 M KOH is presented. The results of potentiodynamic and potentiostatic measurements combined with the current oscillation caused by the irradiation were examined to explain the mechanism and the sequence of formation of the oxide films during passivation. In this study, sonication was also used to investigate both effects of the passivation duration and passivation potential on the structure of the oxide layers; the adherence of the layers was found to depend strongly on both parameters. Scanning electron microscopy-energy dispersive X-ray (SEM-EDX) analysis of the zinc surface provided complementary information on the oxide layer composition and structure.
文摘Lactobacillus delbrueckii ssp. bulgaricus is a widely used bacterium for the production of some fermented dairy products. Mild sonication intensity condition is a non-destructive technique that uses sound waves to cause cavitation in aqueous solutions and may improve the permeability of membranes, speed up the transfer of substrates and promote cellular growth and propagation. The objective was to determine the effect of mild sonication intensities at different temperatures on growth, bile tolerance and protease activity of Lactobacillus delbrueckii ssp. bulgaricus LB-12. The treatments were four sonication intensities (8.07, 14.68, 19.83 and 23.55 W/cm2) randomized at three different temperatures (4℃, 22℃ and 40℃). The energy input (1500 J) was kept constant in all treatments. Control samples did not receive any sonication treatment. Growth and bile tolerance were determined every 2 h for 12 h of incubation. Protease activity was determined at 0, 12 and 24 h. Mild sonication conditions included 1) mild sonication intensities, 2) temperatures and 3) times, all three of which played a role in influencing the desirable attributes of Lactobacillus delbrueckii ssp. bulgaricus LB-12. Of all the mild sonication intensities studied, 14.68 W/cm2 had the best overall influence at certain time points forimproving the bile tolerance and growth at 4℃ and protease activity at 40℃. Mild sonication intensity of 23.55 W/cm2 had the best overall influence at certain time points for protease activity of at 22℃. Some mild sonication conditions could be recommended for improvement of some characteristics of Lactobacillus delbrueckii ssp. bulgaricus LB-12.
文摘This study aims to determine the effect of audiosonic sonication in normal modes on the formation of graphene oxide(GO)fromcarbon rods of zinc-carbon(ZnC)battery wastes.The method used in this study was sonication with an audiosonic frequency in normal modes,assisted by a surfactant solution derived from a commercial detergent.A graphite-detergent solutionwas exposed to audiosonicwaves using a frequency of 170 Hz for 3 hwith a pattern on the surface of the solution.The graphite solution was a mixture of 0.8 g of graphite powder and 100 ml of distilled water that was mixed using a blender for 2 min.25 ml of the solution was then taken and dripped with two drops of detergent solution containing 0.2 g detergent powder dissolved into 100 ml distilled water,so that a graphite-detergent solutionwas obtained.The tools used in this study included UV–Visible spectroscopy(UV–Vis),Fourier TransformInfraRed spectroscopy(FTIR),and a Scanning Electron Microscope(SEM).The solution that was audiosonicated showed a strong visible nodal pattern on its surface.The UV–Vis spectroscopy produced absorbance peaks at wavelengths of 225 nmand 270 nm,and the FTIR indicated the presence of OH and C_C functional groups,which suggested the existence of GO.The SEMimages showed GO in the formof coral-like materials.
文摘The potential inhibition of particulates on sonication of aqueous pollutants was investigated. Sonodegradation of bromobenzene, bromophenolate ion, and 2,4,5-trichlorobiphenyl were studied in the presence of various types of particulates suspended in water. Particulates of three different diameters (10 nm, 15 μm, and 35 μm) and two types (silica and polyaromatic resin) were investigated over a wide range of concentrations (0.05 g/L to 10 g/L). The results demonstrated that particulates inhibited sonication only when the target compound sorbed on the solid during sonication and could not partition into cavitation bubbles. The inhibition of the sorbed molecules was almost complete, and relatively independent of the particle concentration within certain ranges. However, the complexity of sonochemistry and particulate-solute matrices precludes a simple universal prediction of the inhibition extent.
文摘Cell disruption focuses on obtaining a desired bioproduct within a cell, and it is the cell wall that must be disrupted to allow access to the contents of the cell. In animal cells, the plasma membrane is the only barrier separating cell contents from the environment. Sound waves from sonication, a mechanical technique for cell disintegration, have been used to disrupt as well as to aggregate cells as a step towards purification of a desired bioproduct. In the present study, an improved sonication process for the high yield of Newcastle disease virus (NDV) propagated in tissue culture was described. DF-I cell was cultured in 25cm^2 T flask. When cells were about 80% confluent, a lentogenic strain of NDV (F strain) was used to infect the cell monolayer. With evident cytopathic effect, cells were subjected to cycles of freeze-thaw before sonicating with varying combinations of amplitude, temperature and time. Cells were sonicated using a water bath Sonicator, Jac Ultrasonic 1505 JEIO TECH 4 KHz. From ANOVA analysis, a significant interaction between sonication time and amplitude was observed. This also corresponds to the highest F value observed.
文摘This paper reports the most prominent contributions in the field of biodegradable polymeric nanoparticles from poly (lactic-co-glycolic acid) (PLGA) used as a protein/drug delivery. We use a combination of Human Serum Albumin (HSA)-superparamagnetic iron oxide nanoparticles (SPIONs) loaded PLGA nanoparticles. To obtain protein stabilization, the optimization of each step of synthesis nanoparticle is required. One of the most common problems in encapsulating protein to PLGA nanoparticles is the presence of several challenges as a problem of instability. We explained how the effect of the various sonication processing on the synthesis HSA-SPIONs loaded PLGA nanoparticles would be one of the crucial parameters for stability.
文摘Mild sonication intensity is an acoustic energy which involves the conversion of electrical signal into a physical vibration modifying the permeability of the cell plasma membrane. The objective of this study was to determine the effect of mild sonication intensities at different temperatures on growth, bile tolerance and protease activity of Streptococcus thermophilus. The treatments were four mild sonication intensities (8.07, 14.68, 19.83 and 23.55 W/cm2) randomized at three different temperatures (4°C, 22°C and 40°C). The energy input (1500 J) was kept constant in all treatments. Control samples did not receive any sonication treatment. Growth and bile tolerance were determined every two hours for 12 h of incubation. Protease activity was determined at 0, 12 and 24 h. Mild sonication conditions included a) mild sonication intensities, b) temperatures and c) times, all three of which played a role in influencing the desirable attributes of Streptococcus salivarius ssp. thermophilus ST-M5. Of all the mild sonication intensities studied, 14.68 W/cm2 had the best overall influence at certain time points for improving bile tolerance and growth at 4°C, growth at 22°C and bile tolerance and growth at 40°C of Streptococcus salivarius ssp. thermophilus ST-M5. Mild sonication intensity of 23.55 W/cm2 had the overall best influence at certain time points for protease activity of Streptococcus salivarius ssp. thermophilus ST-M5 at 40°C. Streptococcus thermophilus ST-M5 pretreatment with some mild sonication conditions can be recommended for improvement of some of its characteristics.
文摘<b style="line-height:1.5;"><span style="font-family:Verdana;">Introduction:</span></b><span style="font-family:'';font-size:10pt;"><span style="font-family:Verdana;font-size:12px;"> Low-grade PJI remains a diagnostic dilemma in the medical community. It is mainly caused by low-virulent bacteria that cause chronic infection. This is mainly due to the formation of biofilms on the implant surface. This biofilm formation poses a diagnostic challenge that causes difficulties in the microbiological diagnosis of the infection by conventional culture methods. Sonication culture of implants has proven to be useful for biofilm forming bacteria. Therefore, we examined the evaluation of low-grade PJI using sonication culture methods and searched for influencing factors. </span><b><span style="font-family:Verdana;font-size:12px;">The methods:</span></b><span style="font-family:Verdana;font-size:12px;"> Between October 2016 and November 2019 we retrospectively examined adult patients with suggestive clinical and laboratory findings of low-grade PJI. The patient's medical history, demographic information, prosthesis type, laboratory findings and length of hospital stay were collected. The results of the microbiological culture were divided into the results of the conventional preoperative and intraoperative culture method and the results of the sonication. In addition, laboratory chemical diagnostics of the joint punctures and CRP determination were performed. Additionally, the influence of prosthesis design and fixation technique, with and without cement, was investigated. </span><b><span style="font-family:Verdana;font-size:12px;">The Results:</span></b><span style="font-family:Verdana;font-size:12px;"> Fifty-two patients with a mean age of 70.5 years were included in this study. The female population was more frequently affected. The most frequently affected joints were hip and knee. A higher percentage of pathogen detection was found at sonication with 60% of positive cultures, compared to 52% of intraoperative </span></span><span style="line-height:1.5;font-family:Verdana;">and 40% of preoperative </span><span style="line-height:1.5;font-family:Verdana;">conventional positive culture findings. The majority of patients were monomicrobial infections, with Staphylococcus epidermidis being the most frequently detected etiologic pathogen. The sonication culture was best able to detect a polymicrobial infection in 14% of cases compared to 6% of intraoperative and 4% of preoperative conventional cultures. Patients with a polymicrobial infection showed higher CRP values (</span><i style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">P</span></i><span style="line-height:1.5;font-family:Verdana;"> = 0.0172) and longer hospitalization (</span><i style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">P</span></i><span style="line-height:1.5;font-family:Verdana;"> = 0.0017) than monomicrobial infected patients. The results of the intraoperative conventional culture showed the highest congruence with the results of the sonication culture (concordance of 79%) compared to the preoperative culture. An infectious histopathological classification confirmed the microbiological ultrasound findings in 69% of cases with an infectious category. Cemented fixation showed a trend towards less positive microbiological findings, and total hip arthroplasty showed the highest detection of bacteria by sonication culture compared to bicondylar surface knee replacement (</span><i style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">P</span></i><span style="line-height:1.5;font-family:Verdana;"> = 0.0072). </span><b style="font-family:'';font-size:10pt;line-height:1.5;"><span style="font-family:Verdana;font-size:12px;">Conclusion:</span></b><span style="line-height:1.5;font-family:Verdana;"> The sonication culture proved to be an important microbiological diagnostic tool, especially for the detection of polymicrobial infections in cases of low-grade PJI. This method has an established place in the diagnosis of low-grade PJI. The prosthesis design and the cemented fixation technique seem to have an influence on the detection of bacteria.
基金supported by the National Research Foundation of Korea,Republic of Korea(grant number 2022R1I1A1A01069773,2022R1F1A1063434,and 2022R1I1A1A01055913)the Technology Innovation Program,the Ministry of Trade,Industry&Energy,Republic of Korea(grant number 20009663)the OTTOGI Corporation,Republic of Korea,through the Research and Publication Project.
文摘High hydrostatic pressure is a non-thermal processing technique for extracting functional compounds from herbal plants.This study aims to investigate the effectiveness of the combination of high hydrostatic pressure(HHP),enzymatic hydrolysis,and sonication for extracting wild-simulated ginseng(WSG)to improve yields of major and minor ginsenosides.By using LC-MS/MS analysis,the total ginsenoside yield was enhanced by 25.62%by increasing the pressure of HHP and sonication treatment(HHP-soni)extraction from 100 to 300 MPa.Furthermore,compared to HHP-soni at 100 MPa,adding two commercial food-grade enzymes(Viscozyme and Pectinex)resulted in a 1.23-1.43-fold increase in total ginsenoside contents,as well as a 1.09-1.95-fold increase in the contents of seven major ginsenosides.Similarly,HHP-soni with enzymes increased the yields of five minor ginsenosides(Ro,Rh1,F2,CO,and Rg3)by 1.76-30.24 times compared to extraction with Pectinex at 0.1 MPa.Ginsenoside compound K and protopanaxadiol were detected after extraction using Pectinex with HHP-soni,but not after extraction using Pectinex and sonication at 0.1 MPa.While the contents of the stereoisomers 20(S)-Rg3 and 20(R)-Rg3 were similar after extraction at pressures of 100 and 200 MPa,the 20(S)-Rg3 content was 1.87 times higher than the 20(R)-Rg3 content after HHP treatment at 300 MPa.From the analytical data,we inferred the hydrolytic pathways of the major to minor ginsenosides,and specifically the ginsenoside Rb1 standard,when using Pectinex under experimental conditions.These findings suggest that the combination process of HHP,sonication,and Pectinex treatment could improve the quality of WSG.
基金supported by the National Research Foundation of Korea(NRF)grant funded by the Korea government(MSIT)(No.2017M3A9B3063638,No.2019R1A2C2005256).
文摘Decellularization to produce bioscaffolds composed of the extracellular matrix(ECM)uses enzymatic,chemical and physical methods to remove antigens and cellular components from tissues.Effective decellularization methods depend on the characteristics of tissues,and in particular,tissues with dense,complex structure and abundant lipid content are difficult to completely decellularize.Our study enables future research on the development of methods and treatments for fabricating bioscaffolds via decellularization of complex and rigid skin tissues,which are not commonly considered for decellularization to date as their structural and functional characteristics could not be preserved after severe decellularization.In this study,decellularization of human dermal tissue was done by a combination of both chemical(0.05%trypsin-EDTA,2%SDS and 1%Triton X-100)and physical methods(electroporation and sonication).After decellularization,the content of DNA remaining in the tissue was quantitatively confirmed,and the structural change of the tissue and the retention and distribution of ECM components were evaluated through histological and histochemical analysis,respectively.Conditions of the chemical pretreatment that increase the efficiency of physical stimulation as well as decellularization,and conditions for electroporation and sonication without the use of detergents,unlike the methods performed in previous studies,were established to enable the complete decellularization of the skin tissue.The combinatorial decellularization treatment formed micropores in the lipid bilayers of the skin tissues while removing all cell and cellular residues without affecting the ECM properties.Therefore,this procedure can be widely used to fabricate bioscaffolds by decellularizing biological tissues with dense and complex structures.
文摘Various prctreatments methods including sonication and grinding were perfonned on red seaweed Gelidium amansii for the subsequent extraction ofagarose. The agarose products are usually extracted from agar powder products from seaweeds. In this study, the agarose was extracted using a direct polyethylene glycol (PEG) method without the need to first process the agar from seaweed. The agar extract was frozen then thawed and mixed directly with PEG solution to precipitate the agarose. The quality of agarose obtained was evaluated through physico-chemical properties analysis which includes spectral technique (FTIR), melting and boiling point, gel strength and sulfate content. These properties were compared with a non-pretreated sample and it was found that the addition of pretreatment steps improved the quality of agarosc but gave a slightly lower yield. The gel strength of pretreated samples was much higher and the sulfate content was lower compared to non-pretreated samples. The best pretreatment method was sonication which gave gel strength of 742 gcm - and sulfate content of 0.63%. The extraction of agarose can be further improved with the use of different neutralizing agents. Pretreating the seaweed shows potential in improving the quality of agarosc from seaweed and can be applied for thture extraction of the agarose.
基金Supported by the Shenzhen Science and Technolgy Bureau of China (No. 2002-k3-134)
文摘In order to better understand sonication, this paper studies the effect of sound frequency on the 2-chlorobiphenyl (2-CB) sonication and analyzes two prevailing hypotheses. Four frequencies 205, 358, 618, and 1071 kHz were tested. The 2-CB degradation kinetics, dechlorination, and inhibition by a free radical scavenger were examined. The results show that sonication effectively degrades 2-CB, and the first order rate constants using 0.4 W/cm3 sonication are 0.214, 0.508, 0.454, and 0.248 min1 at 205, 358, 618, and 1071 kHz, respectively. Good dechlorination was also achieved. 358 kHz frequency provided the most effi-cient 2-CB degradation, but the worst dechlorination, and was most sensitive to the free radical scavenger. Detailed analyses show that thermolysis is relatively stable at these frequencies while the free radical reac-tion depends strongly on the sound frequency.
