Joint Multimodal Aspect-based Sentiment Analysis(JMASA)is a significant task in the research of multimodal fine-grained sentiment analysis,which combines two subtasks:Multimodal Aspect Term Extraction(MATE)and Multimo...Joint Multimodal Aspect-based Sentiment Analysis(JMASA)is a significant task in the research of multimodal fine-grained sentiment analysis,which combines two subtasks:Multimodal Aspect Term Extraction(MATE)and Multimodal Aspect-oriented Sentiment Classification(MASC).Currently,most existing models for JMASA only perform text and image feature encoding from a basic level,but often neglect the in-depth analysis of unimodal intrinsic features,which may lead to the low accuracy of aspect term extraction and the poor ability of sentiment prediction due to the insufficient learning of intra-modal features.Given this problem,we propose a Text-Image Feature Fine-grained Learning(TIFFL)model for JMASA.First,we construct an enhanced adjacency matrix of word dependencies and adopt graph convolutional network to learn the syntactic structure features for text,which addresses the context interference problem of identifying different aspect terms.Then,the adjective-noun pairs extracted from image are introduced to enable the semantic representation of visual features more intuitive,which addresses the ambiguous semantic extraction problem during image feature learning.Thereby,the model performance of aspect term extraction and sentiment polarity prediction can be further optimized and enhanced.Experiments on two Twitter benchmark datasets demonstrate that TIFFL achieves competitive results for JMASA,MATE and MASC,thus validating the effectiveness of our proposed methods.展开更多
目的探讨微孔板法、实时荧光PCR熔解曲线技术(简称“熔解曲线法”)、多色巢式实时荧光定量PCR技术(简称“Xpert法”)和罗氏药物敏感性试验(L-J药敏试验,简称“比例法”)用于快速筛查耐多药结核病(MDR-TB)的临床价值。方法从医院信息系统...目的探讨微孔板法、实时荧光PCR熔解曲线技术(简称“熔解曲线法”)、多色巢式实时荧光定量PCR技术(简称“Xpert法”)和罗氏药物敏感性试验(L-J药敏试验,简称“比例法”)用于快速筛查耐多药结核病(MDR-TB)的临床价值。方法从医院信息系统(hospital information system,HIS)连续收集2014年7月至2018年3月重庆市公共卫生医疗救治中心收治的确诊为结核病,且具有微孔板法、比例法、熔解曲线法、Xpert法检测MTB对利福平、异烟肼耐药性诊断结果的2792例患者资料;其中微孔板法、比例法采用阳性分离菌株检测,熔解曲线法和Xpert法采用患者标本直接检测。纳入同时具有微孔板法和比例法耐药性检测结果的1488例患者作为研究对象,其中341例行微孔板法+比例法+Xpert法检测利福平耐药性,87例行微孔板法+比例法+熔解曲线法检测利福平耐药性,66例行微孔板法+比例法+熔解曲线法检测异烟肼耐药性。以比例法为标准,采用SPSS13.0软件分别计算微孔板法、熔解曲线法、Xpert法检测利福平和(或)异烟肼耐药性的敏感度、特异度、符合率、Kappa值等。结果以比例法为标准,微孔板法、Xpert法、熔解曲线法检测利福平耐药性的敏感度、特异度、阳性预测值、阴性预测值、符合率、Kappa值分别为97.2%(731/752)、96.9%(713/736)、96.9%(731/754)、97.1%(713/734)、97.0%(1444/1488)、0.94,97.2%(140/144)、94.9%(187/197)、93.3%(140/150)、97.9%(187/191)、95.9%(327/341)、0.92,97.1%(33/34)、84.9%(45/53)、80.5%(33/41)、97.8%(45/46)、89.7%(78/87)、0.79;微孔板法和熔解曲线法检测异烟肼耐药性的敏感度、特异度、阳性预测值、阴性预测值、符合率、Kappa值分别为94.8%(751/792)、95.7%(667/697)、96.3%(751/780)、94.2%(667/708)、97.9%(1418/1448)、0.91,97.3%(36/37)、86.2%(25/29)、90.0%(36/40)、96.2%(25/26)、92.4%(61/66)、0.84。结论微孔板法、熔解曲线法、Xpert法检测利福平和(或)异烟肼耐药性均具有较高的敏感度和特异度,适合快速筛查耐多药结核病;微孔板法还能获得各药物最低药物浓度,为临床用药剂量的选择提供参考依据。展开更多
Radiochemotherapy-induced oral mucositis(OM)is a common oral complication in patients with tumors following head and neck radiotherapy or chemotherapy.Erosion and ulcers are the main features of OM that seriously affe...Radiochemotherapy-induced oral mucositis(OM)is a common oral complication in patients with tumors following head and neck radiotherapy or chemotherapy.Erosion and ulcers are the main features of OM that seriously affect the quality of life of patients and even the progress of tumor treatment.To date,differences in clinical prevention and treatment plans for OM have been noted among doctors of various specialties,which has increased the uncertainty of treatment effects.On the basis of current research evidence,this expert consensus outlines risk factors,clinical manifestations,clinical grading,ancillary examinations,diagnostic basis,prevention and treatment strategies and efficacy indicators for OM.In addition to strategies such as basic oral care,antiinflammatory and analgesic agents,anti-infective agents,pro-healing agents,and photobiotherapy recommended in previous guidelines,we also emphasize the role of traditional Chinese medicine in OM prevention and treatment.This expert consensus aims to provide references and guidance for dental physicians and oncologists in formulating strategies for OM prevention,diagnosis,and treatment,standardizing clinical practice,reducing OM occurrence,promoting healing,and improving the quality of life of patients.展开更多
The development of guidance technology has made it possible for the earth penetration weapons(EPWs)to impact the target repeatedly at a close range. To investigative the damage of single and sequential strike induced ...The development of guidance technology has made it possible for the earth penetration weapons(EPWs)to impact the target repeatedly at a close range. To investigative the damage of single and sequential strike induced by the EPWs, experimental and numerical investigations are carried out in this paper.Firstly, a series of sequential explosion tests are conducted to provide the basic data of the crater size.Then, a numerical model is established to simulate the damage effects of sequential explosions using the meshfree method of Smoothed particle Galerkin. The effectiveness of numerical model is verified by comparison with the experimental results. Finally, based on dimensional analysis, several empirical formulas for describing the crater size are presented, including the conical crater diameter and the conical crater depth of the single explosion, the conical crater area and the joint depth of the secondary explosion. The formula for the single explosion expresses the relationship between the aspect ratio of the charge ranging from 3 to 7, the dimensionless buried depth ranging from 2 to 14 and the crater size. The formula for the secondary explosion expresses the relationship between the relative position of the two explosions and the crater size. All of data can provide reference for the design of protective structures.展开更多
The insulating nature and dissolution of vanadium-based oxides in aqueous electrolytes result in low capacity and lifespan during charge/discharge process, which is unable to meet the demands for the development and a...The insulating nature and dissolution of vanadium-based oxides in aqueous electrolytes result in low capacity and lifespan during charge/discharge process, which is unable to meet the demands for the development and application of high-energy-density aqueous zinc-ion batteries(AZIBs). Herein, a novel V_(2)O_(5-x)@C composite cathode consisting of conductive carbon coatings with abundant oxygen vacancies is specifically designed through plasma-enhanced chemical vapor deposition(PECVD) method. As expected,the ideal microstructure of V_(2)O_(5-x)@C cathode enables large specific surface areas, fast electron/ion diffusion kinetics, and superior interfacial stability, which can realize outstanding cycling stability and electrochemical performance. Consequently, the V_(2)O_(5-x)@C composite cathode delivers a high reversible rate capacity of 130.6 mAh/g at 10 A/g and remains 277.6 mAh/g when returned to 1 A/g. In addition, the Zn//V_(2)O_(5-x)@C full cell can stably cycle for 1000 cycles with a high initial specific capacity of 149.2 m Ah/g,possessing 83.8% capacity retention at 5 A/g. The process of constructing a conductive layer on the surface of cathode materials while increasing oxygen vacancies in the structure through PECVD provides new insight into the design of high-performance cathode materials for AZIBs.展开更多
Electrocatalytic C—N coupling is an environmentally friendly pathway for reducing CO_(2)emissions,nitrate wastewater treatment,and urea production.CeO_(2)is a commonly used electrocatalyst for urea synthesis,but its ...Electrocatalytic C—N coupling is an environmentally friendly pathway for reducing CO_(2)emissions,nitrate wastewater treatment,and urea production.CeO_(2)is a commonly used electrocatalyst for urea synthesis,but its yield was restricted by the deficiency of active sites and the high barrier for C—N coupling.Herein,we employed transient heating to introduce oxygen vacancies as sites for the deposition of single metal atoms,thereby maximizing the atomic utilization as active sites for urea synthesis.The as-prepared CuFe-V-CeO_(2)electrocatalyst exhibits the outstanding urea yield rate(3553 mg h^(-1)g_(ca)^(t-1).)at-1.5 V versus reversible hydrogen electrode(RHE),surpassing the performance of previously reported electrochemical urea electrocatalysts.Theoretical calculation further revealed the roles of Ce,Cu,and Fe sites in active hydrogen(*H)generation,nitrate treatment,and CO_(2)stabilization,respectively.This work offers a novel and effective pathway for the design of electrocatalysts and developing an efficient C—N coupling system for urea production.展开更多
Neurodegenerative diseases(NDDs)are characterized primarily by progressive impairments in cognition,behavior,and memory.MicroRNAs(miRNAs)are abundantly expressed in the central nervous system and are vital for the nor...Neurodegenerative diseases(NDDs)are characterized primarily by progressive impairments in cognition,behavior,and memory.MicroRNAs(miRNAs)are abundantly expressed in the central nervous system and are vital for the normal function and survival of neurons.Mature miRNAs are naturally occurring small noncoding single-stranded RNA molecules that are approximately 21–25 nucleotides in length.They regulate gene expression by pairing with target mRNAs and undergo significant alterations in various physiological and pathological processes.miR-146a,a miRNA dependent on nuclear factorκB(NF-κB),is highly expressed in neurons and functions as an anti-inflammatory miRNA via the Toll-like receptor(TLR)pathway,which is an essential regulatory factor for neuroinflammation expression during the development of NDDs.In this review,we summarize and emphasize the pivotal role of miR-146a in NDDs,highlighting the association between miR-146a polymorphisms and the risk of NDDs.We also discuss how alterations in miR-146a expression levels represent a critical event in the pathogenesis of numerous NDDs.Furthermore,the target genes of miR-146a are involved in regulating the pathophysiological processes of these diseases,particularly in the context of neuroinflammatory responses.In conclusion,miR-146a plays a central role in the progression of NDDs,with its primary function in neuroinflammation.These findings suggest that miR-146a holds promise as both a biomarker and a potential therapeutic target.A deeper understanding of how miR-146a influences neuroinflammatory responses across different types of neurological damage,cell types,and even various stages of certain NDDs will pave the way for its use as a therapeutic target in treating these conditions.Therefore,this article reviews the mechanism of miR-146a in NDDs and discusses the future therapeutic prospects for this type of disease.miR-146a regulates the related genes of the inflammatory signaling pathway and its influence on the development of NDDs.(Created in https://BioRender.com).展开更多
With the increasingly excellent performance of magnesium alloy materials, magnesium alloys are increasingly widely used under the urgent need for weight reduction in aerospace applications. However, due to the severe ...With the increasingly excellent performance of magnesium alloy materials, magnesium alloys are increasingly widely used under the urgent need for weight reduction in aerospace applications. However, due to the severe aviation environment, the strength, corrosion resistance and electrical conductivity of magnesium alloy materials need to be further improved. Many scholars are committed to studying higher comprehensive mechanical properties. Besides, they have studied surface treatment processes with space application characteristics, such as high emissivity oxidation and high anti-corrosion electroplating. To further improve the safety and reliability of magnesium alloys and expand their applications, this paper discusses several kinds of magnesium alloys and summarizes their research progress. The whole manuscript should be revised by an expert who has more experience on English writing. At the same time, the surface treatments of magnesium alloy materials for aerospace are analyzed. Besides, the application of magnesium alloy in aerospace field is summarized. With the in-depth research of many scholars, the improvement of material properties and the development of surface protection and functional technology, it is believed that magnesium alloys will be used in more and more aerospace applications and make more contributions to the aerospace field.展开更多
The elliptical cross-section ogive-nose projectile(ECOP) has recently attracted attention because it is well suited to the flattened shape of earth-penetrating weapons. However, the penetration performance of ECOPs ha...The elliptical cross-section ogive-nose projectile(ECOP) has recently attracted attention because it is well suited to the flattened shape of earth-penetrating weapons. However, the penetration performance of ECOPs has not been completely understood. The objective of this study was to investigate the penetration performance of ECOPs into concrete targets using a theoretical method. A general geometric model of ECOPs was introduced, and closed-form penetration equations were derived according to the dynamic cavity-expansion theory. The model was validated by comparing the predicted penetration depths with test data, and the maximum deviation was 15.8%. The increment in the penetration depth of the ECOP was evaluated using the proposed model, and the effect of the majoreminor axis ratio on the increment was examined. Additionally, the mechanism of the penetration-depth increment was investigated with respect to the caliber radius head, axial stress, and resistance.展开更多
Duplex-structured Mg-7Li-2Al-1.5Sn alloys with high strength were fabricated and their strengthening mechanism was investigated.The Mg-7Li-2Al-1.5Sn alloys were prepared by casting and extruded at the temperature of 5...Duplex-structured Mg-7Li-2Al-1.5Sn alloys with high strength were fabricated and their strengthening mechanism was investigated.The Mg-7Li-2Al-1.5Sn alloys were prepared by casting and extruded at the temperature of 533 K with an extrusion ratio of 25:1.The microstructure and mechanical properties of Mg-7Li-2Al-1.5Sn alloys were systematically investigated by OM,XRD,SEM,TEM,and tensile tests.The results show that Mg-7Li-2Al-1.5Sn alloys are mainly composed ofα-Mg,β-Li,LiMgAl_(2),Mg_(2)Sn and Li_(2)MgSn phases.The yield strength(YS),ultimate tensile strength(UTS)and elongation(EL)of the extruded alloy at room temperature reach 250 MPa,324 MPa and 11.9%,respectively.A lot of Sn-rich precipitates(Mg_(2)Sn and Li_(2)MgSn)are precipitated during extrusion with an average size of∼14 nm,which is beneficial to the grain refinement.Dynamic recrystallization occurs during hot deformation and the nanoprecipitates effectively refine the dynamic recrystallized(DRXed)grains.Besides,the residual dislocations existed in DRXed and un-DRXed grains result in the dislocation strengthening in the extruded alloy.Mg7Li-2Al-1.5Sn alloys possess excellent high-temperature mechanical properties with the YS,UTS and EL of 200 MPa,237 MPa and 26.7%at 423 K,respectively.Sn-rich precipitates with good thermal stability can effectively prevent grain growth,which is good for the improvement of the high-temperature performance of Mg-Li-Al-Sn alloy.展开更多
The effect of rolling reduction and annealing process on the microstructure and corrosion behavior of Mg-9Li-1Zn(LZ91) alloy was investigated. The test alloy sheets were cold rolled with the reduction of 50% and 75%, ...The effect of rolling reduction and annealing process on the microstructure and corrosion behavior of Mg-9Li-1Zn(LZ91) alloy was investigated. The test alloy sheets were cold rolled with the reduction of 50% and 75%, respectively, and then were annealed at 200 ℃ for 1 h. The microstructure of test alloys was observed by OM and SEM while the phase composition was determined by XRD. The corrosion property was evaluated by electrochemical measurements and immersion tests. The results show that LZ91 alloy sheet consists of α-Mg, β-Li and precipitated Mg-Li-Zn compounds(MgLi2Zn and MgLiZn phases). Dynamic recrystallization grains appear in β-Li phase during annealing process, leading to grain refinement. The results indicate that the increasing rolling reduction and performing the annealing process can enhance the corrosion resistance of LZ91 alloy. The 75% cold-rolled and annealed LZ91 alloy shows the best corrosion resistance.展开更多
Utilization of heterosis has greatly contributed to rice productivity in China and many Asian countries. Superior hybrids usually show heterosis at two stages: canopy development at vegetative stage and panicle devel...Utilization of heterosis has greatly contributed to rice productivity in China and many Asian countries. Superior hybrids usually show heterosis at two stages: canopy development at vegetative stage and panicle development at reproductive stage resulting in heterosis in yield. Although the genetic basis of heterosis in rice has been extensively investigated, all the previous studies focused on yield traits at maturity stage. In this study, we analyzed the genetic basis of heterosis at seedling stage making use of an "immortalized F2" population composed of 105 hybrids produced by intercrossing recombinant inbred lines (RILs) from a cross between Zhenshan 97 and Minghui 63, the parents of Shanyou 63, which is an elite hybrid widely grown in China. Eight seedling traits, seedling height, tiller number, leaf number, root number, maximum root length, root dry weight, shoot dry weight and total dry weight, were investigated using hydroponic culture. We analyzed single-locus and digenic genetic effects at the whole genome level using an ultrahigh-density SNP bin map obtained by population re-sequencing. The analysis revealed large numbers of heterotic effects for seedling traits including dominance, over- dominance and digenic dominance (epistasis) in both positive and negative directions. Overdominance effects were prevalent for all the traits, and digenic dominance effects also accounted for a large portion of the genetic effects. The results suggested that cumulative small advantages of the single-locus effects and two-locus interactions, most of which could not be detected statistically, could explain the genetic basis of seedling heterosis of the F1 hybrid.展开更多
The hot compression behavior of as-extruded Mg-0.6Mn-0.5Al-0.5Zn-0.4Ca alloy was studied on a Gleeble-3500 thermal simulation machine.Experiments were conducted at temperatures ranging from 523 to 673 K and strain rat...The hot compression behavior of as-extruded Mg-0.6Mn-0.5Al-0.5Zn-0.4Ca alloy was studied on a Gleeble-3500 thermal simulation machine.Experiments were conducted at temperatures ranging from 523 to 673 K and strain rates ranging from 0.001 to 1 s^(-1).Results showed that an increase in the strain rate or a decrease in deformation temperature led to an increase in true stress.The constitutive equation and processing maps of the alloy were obtained and analyzed.The influence of deformation temperatures and strain rates on microstructural evolution and texture was studied with the assistance of electron backscatter diffraction(EBSD).The as-extruded alloy exhibited a bimodal structure that consisted of deformed coarse grains and fine equiaxed recrystallized structures(approximately 1.57μm).The EBSD results of deformed alloy samples revealed that the recrystallization degree and average grain size increased as the deformation temperature increased.By contrast,dislocation density and texture intensity decreased.Compressive texture weakened with the increase in the deformation temperature at the strain rate of 0.01 s-1.Most grains with{0001}planes tilted away from the compression direction(CD)gradually.In addition,when the strain rate decreased,the recrystallization degree and average grain size increased.Meanwhile,the dislocation density decreased.Texture appeared to be insensitive to the strain rate.These findings provide valuable insights into the hot compression behavior,microstructural evolution,and texture changes in the Mg-0.6Mn-0.5Al-0.5Zn-0.4Ca alloy,contributing to the understanding of its processing-microstructure-property relationships.展开更多
基金supported by the Science and Technology Project of Henan Province(No.222102210081).
文摘Joint Multimodal Aspect-based Sentiment Analysis(JMASA)is a significant task in the research of multimodal fine-grained sentiment analysis,which combines two subtasks:Multimodal Aspect Term Extraction(MATE)and Multimodal Aspect-oriented Sentiment Classification(MASC).Currently,most existing models for JMASA only perform text and image feature encoding from a basic level,but often neglect the in-depth analysis of unimodal intrinsic features,which may lead to the low accuracy of aspect term extraction and the poor ability of sentiment prediction due to the insufficient learning of intra-modal features.Given this problem,we propose a Text-Image Feature Fine-grained Learning(TIFFL)model for JMASA.First,we construct an enhanced adjacency matrix of word dependencies and adopt graph convolutional network to learn the syntactic structure features for text,which addresses the context interference problem of identifying different aspect terms.Then,the adjective-noun pairs extracted from image are introduced to enable the semantic representation of visual features more intuitive,which addresses the ambiguous semantic extraction problem during image feature learning.Thereby,the model performance of aspect term extraction and sentiment polarity prediction can be further optimized and enhanced.Experiments on two Twitter benchmark datasets demonstrate that TIFFL achieves competitive results for JMASA,MATE and MASC,thus validating the effectiveness of our proposed methods.
文摘目的探讨微孔板法、实时荧光PCR熔解曲线技术(简称“熔解曲线法”)、多色巢式实时荧光定量PCR技术(简称“Xpert法”)和罗氏药物敏感性试验(L-J药敏试验,简称“比例法”)用于快速筛查耐多药结核病(MDR-TB)的临床价值。方法从医院信息系统(hospital information system,HIS)连续收集2014年7月至2018年3月重庆市公共卫生医疗救治中心收治的确诊为结核病,且具有微孔板法、比例法、熔解曲线法、Xpert法检测MTB对利福平、异烟肼耐药性诊断结果的2792例患者资料;其中微孔板法、比例法采用阳性分离菌株检测,熔解曲线法和Xpert法采用患者标本直接检测。纳入同时具有微孔板法和比例法耐药性检测结果的1488例患者作为研究对象,其中341例行微孔板法+比例法+Xpert法检测利福平耐药性,87例行微孔板法+比例法+熔解曲线法检测利福平耐药性,66例行微孔板法+比例法+熔解曲线法检测异烟肼耐药性。以比例法为标准,采用SPSS13.0软件分别计算微孔板法、熔解曲线法、Xpert法检测利福平和(或)异烟肼耐药性的敏感度、特异度、符合率、Kappa值等。结果以比例法为标准,微孔板法、Xpert法、熔解曲线法检测利福平耐药性的敏感度、特异度、阳性预测值、阴性预测值、符合率、Kappa值分别为97.2%(731/752)、96.9%(713/736)、96.9%(731/754)、97.1%(713/734)、97.0%(1444/1488)、0.94,97.2%(140/144)、94.9%(187/197)、93.3%(140/150)、97.9%(187/191)、95.9%(327/341)、0.92,97.1%(33/34)、84.9%(45/53)、80.5%(33/41)、97.8%(45/46)、89.7%(78/87)、0.79;微孔板法和熔解曲线法检测异烟肼耐药性的敏感度、特异度、阳性预测值、阴性预测值、符合率、Kappa值分别为94.8%(751/792)、95.7%(667/697)、96.3%(751/780)、94.2%(667/708)、97.9%(1418/1448)、0.91,97.3%(36/37)、86.2%(25/29)、90.0%(36/40)、96.2%(25/26)、92.4%(61/66)、0.84。结论微孔板法、熔解曲线法、Xpert法检测利福平和(或)异烟肼耐药性均具有较高的敏感度和特异度,适合快速筛查耐多药结核病;微孔板法还能获得各药物最低药物浓度,为临床用药剂量的选择提供参考依据。
基金supported by the National Natural Science Foundation of China(U23A20445)the Science and Technology Program of Guangzhou(202206080009)。
文摘Radiochemotherapy-induced oral mucositis(OM)is a common oral complication in patients with tumors following head and neck radiotherapy or chemotherapy.Erosion and ulcers are the main features of OM that seriously affect the quality of life of patients and even the progress of tumor treatment.To date,differences in clinical prevention and treatment plans for OM have been noted among doctors of various specialties,which has increased the uncertainty of treatment effects.On the basis of current research evidence,this expert consensus outlines risk factors,clinical manifestations,clinical grading,ancillary examinations,diagnostic basis,prevention and treatment strategies and efficacy indicators for OM.In addition to strategies such as basic oral care,antiinflammatory and analgesic agents,anti-infective agents,pro-healing agents,and photobiotherapy recommended in previous guidelines,we also emphasize the role of traditional Chinese medicine in OM prevention and treatment.This expert consensus aims to provide references and guidance for dental physicians and oncologists in formulating strategies for OM prevention,diagnosis,and treatment,standardizing clinical practice,reducing OM occurrence,promoting healing,and improving the quality of life of patients.
文摘The development of guidance technology has made it possible for the earth penetration weapons(EPWs)to impact the target repeatedly at a close range. To investigative the damage of single and sequential strike induced by the EPWs, experimental and numerical investigations are carried out in this paper.Firstly, a series of sequential explosion tests are conducted to provide the basic data of the crater size.Then, a numerical model is established to simulate the damage effects of sequential explosions using the meshfree method of Smoothed particle Galerkin. The effectiveness of numerical model is verified by comparison with the experimental results. Finally, based on dimensional analysis, several empirical formulas for describing the crater size are presented, including the conical crater diameter and the conical crater depth of the single explosion, the conical crater area and the joint depth of the secondary explosion. The formula for the single explosion expresses the relationship between the aspect ratio of the charge ranging from 3 to 7, the dimensionless buried depth ranging from 2 to 14 and the crater size. The formula for the secondary explosion expresses the relationship between the relative position of the two explosions and the crater size. All of data can provide reference for the design of protective structures.
基金financially supported by the National Natural Science Foundation of China (No. 52377222)Natural Science Foundation of Hunan Province (No. 2023JJ20064)。
文摘The insulating nature and dissolution of vanadium-based oxides in aqueous electrolytes result in low capacity and lifespan during charge/discharge process, which is unable to meet the demands for the development and application of high-energy-density aqueous zinc-ion batteries(AZIBs). Herein, a novel V_(2)O_(5-x)@C composite cathode consisting of conductive carbon coatings with abundant oxygen vacancies is specifically designed through plasma-enhanced chemical vapor deposition(PECVD) method. As expected,the ideal microstructure of V_(2)O_(5-x)@C cathode enables large specific surface areas, fast electron/ion diffusion kinetics, and superior interfacial stability, which can realize outstanding cycling stability and electrochemical performance. Consequently, the V_(2)O_(5-x)@C composite cathode delivers a high reversible rate capacity of 130.6 mAh/g at 10 A/g and remains 277.6 mAh/g when returned to 1 A/g. In addition, the Zn//V_(2)O_(5-x)@C full cell can stably cycle for 1000 cycles with a high initial specific capacity of 149.2 m Ah/g,possessing 83.8% capacity retention at 5 A/g. The process of constructing a conductive layer on the surface of cathode materials while increasing oxygen vacancies in the structure through PECVD provides new insight into the design of high-performance cathode materials for AZIBs.
基金supported by the Hebei Natural Science Foundation(B2024205035)supported by the Fundamental Research Funds for the Central Universities+5 种基金the World-Class Universities(Disciplines)the Characteristic Development Guidance Funds for the Central Universities(1061-B23017010264)supported by the Fundamental Research Funds for the Natural Science Foundation of China(92047201,52102237)the Natural Science Foundation of Jiangsu Province(BK20220006)the National Major Projects of Water Pollution Control and Management Technology(2017ZX07204003)the Postdoctoral Science Foundations of China and Jiangsu Province(2021M690861,2022T150183,2021K065A)。
文摘Electrocatalytic C—N coupling is an environmentally friendly pathway for reducing CO_(2)emissions,nitrate wastewater treatment,and urea production.CeO_(2)is a commonly used electrocatalyst for urea synthesis,but its yield was restricted by the deficiency of active sites and the high barrier for C—N coupling.Herein,we employed transient heating to introduce oxygen vacancies as sites for the deposition of single metal atoms,thereby maximizing the atomic utilization as active sites for urea synthesis.The as-prepared CuFe-V-CeO_(2)electrocatalyst exhibits the outstanding urea yield rate(3553 mg h^(-1)g_(ca)^(t-1).)at-1.5 V versus reversible hydrogen electrode(RHE),surpassing the performance of previously reported electrochemical urea electrocatalysts.Theoretical calculation further revealed the roles of Ce,Cu,and Fe sites in active hydrogen(*H)generation,nitrate treatment,and CO_(2)stabilization,respectively.This work offers a novel and effective pathway for the design of electrocatalysts and developing an efficient C—N coupling system for urea production.
基金supported by Zhejiang Basic Public Welfare Research Program(No.LGF21H090002)Zhejiang Medical and Health Science and Technology Plan Project(No.2022497454)+5 种基金Research Foundation of Yichang City Science and Technology Bureau(A21-2-044.No.A18-302-a2)Open Foundation of Hubei Key Laboratory of Wudang characteristic traditional Chinese medicine research(No.WDCM2022010)Hubei Provincial Department of Science and Technology Key Research and Development Big Health Plan Project(No.2022BCE017)Natural Science Foundation Project of Hubei Provincial Department of Science and Technology(No.2023AFB600,No.2022CFB357,No.2022CFB427)Open Fund of Traditional Chinese Medicine Clinical Research Center for Functional Digestive System Diseases in Hubei Province(No.SXZ202308,No.SXZ202311)Key Traditional Chinese Medicine Project of Hubei Provincial Health Commission(No.ZY2023Z015).
文摘Neurodegenerative diseases(NDDs)are characterized primarily by progressive impairments in cognition,behavior,and memory.MicroRNAs(miRNAs)are abundantly expressed in the central nervous system and are vital for the normal function and survival of neurons.Mature miRNAs are naturally occurring small noncoding single-stranded RNA molecules that are approximately 21–25 nucleotides in length.They regulate gene expression by pairing with target mRNAs and undergo significant alterations in various physiological and pathological processes.miR-146a,a miRNA dependent on nuclear factorκB(NF-κB),is highly expressed in neurons and functions as an anti-inflammatory miRNA via the Toll-like receptor(TLR)pathway,which is an essential regulatory factor for neuroinflammation expression during the development of NDDs.In this review,we summarize and emphasize the pivotal role of miR-146a in NDDs,highlighting the association between miR-146a polymorphisms and the risk of NDDs.We also discuss how alterations in miR-146a expression levels represent a critical event in the pathogenesis of numerous NDDs.Furthermore,the target genes of miR-146a are involved in regulating the pathophysiological processes of these diseases,particularly in the context of neuroinflammatory responses.In conclusion,miR-146a plays a central role in the progression of NDDs,with its primary function in neuroinflammation.These findings suggest that miR-146a holds promise as both a biomarker and a potential therapeutic target.A deeper understanding of how miR-146a influences neuroinflammatory responses across different types of neurological damage,cell types,and even various stages of certain NDDs will pave the way for its use as a therapeutic target in treating these conditions.Therefore,this article reviews the mechanism of miR-146a in NDDs and discusses the future therapeutic prospects for this type of disease.miR-146a regulates the related genes of the inflammatory signaling pathway and its influence on the development of NDDs.(Created in https://BioRender.com).
文摘With the increasingly excellent performance of magnesium alloy materials, magnesium alloys are increasingly widely used under the urgent need for weight reduction in aerospace applications. However, due to the severe aviation environment, the strength, corrosion resistance and electrical conductivity of magnesium alloy materials need to be further improved. Many scholars are committed to studying higher comprehensive mechanical properties. Besides, they have studied surface treatment processes with space application characteristics, such as high emissivity oxidation and high anti-corrosion electroplating. To further improve the safety and reliability of magnesium alloys and expand their applications, this paper discusses several kinds of magnesium alloys and summarizes their research progress. The whole manuscript should be revised by an expert who has more experience on English writing. At the same time, the surface treatments of magnesium alloy materials for aerospace are analyzed. Besides, the application of magnesium alloy in aerospace field is summarized. With the in-depth research of many scholars, the improvement of material properties and the development of surface protection and functional technology, it is believed that magnesium alloys will be used in more and more aerospace applications and make more contributions to the aerospace field.
基金supported by the National Natural Science Foundation of China (Nos. 11772269, 11802248, and 11872318)。
文摘The elliptical cross-section ogive-nose projectile(ECOP) has recently attracted attention because it is well suited to the flattened shape of earth-penetrating weapons. However, the penetration performance of ECOPs has not been completely understood. The objective of this study was to investigate the penetration performance of ECOPs into concrete targets using a theoretical method. A general geometric model of ECOPs was introduced, and closed-form penetration equations were derived according to the dynamic cavity-expansion theory. The model was validated by comparing the predicted penetration depths with test data, and the maximum deviation was 15.8%. The increment in the penetration depth of the ECOP was evaluated using the proposed model, and the effect of the majoreminor axis ratio on the increment was examined. Additionally, the mechanism of the penetration-depth increment was investigated with respect to the caliber radius head, axial stress, and resistance.
基金the financial support from the Chongqing Research Program of Basic Research and Frontier Technology(Project No.cstc2019jcyj-msxm X0306)the National Key Research and Development Program of China(Project No.2016YFB0700403&Project No.2016YFB0301100)+1 种基金the fundamental Research funds for Central Universities(Project No.2021CDJJMRH001 and 2020CDJDPT001)the 111 Project(Project No.B16007)by the Ministry of Education and the State Administration of Foreign Experts Affairs of China。
文摘Duplex-structured Mg-7Li-2Al-1.5Sn alloys with high strength were fabricated and their strengthening mechanism was investigated.The Mg-7Li-2Al-1.5Sn alloys were prepared by casting and extruded at the temperature of 533 K with an extrusion ratio of 25:1.The microstructure and mechanical properties of Mg-7Li-2Al-1.5Sn alloys were systematically investigated by OM,XRD,SEM,TEM,and tensile tests.The results show that Mg-7Li-2Al-1.5Sn alloys are mainly composed ofα-Mg,β-Li,LiMgAl_(2),Mg_(2)Sn and Li_(2)MgSn phases.The yield strength(YS),ultimate tensile strength(UTS)and elongation(EL)of the extruded alloy at room temperature reach 250 MPa,324 MPa and 11.9%,respectively.A lot of Sn-rich precipitates(Mg_(2)Sn and Li_(2)MgSn)are precipitated during extrusion with an average size of∼14 nm,which is beneficial to the grain refinement.Dynamic recrystallization occurs during hot deformation and the nanoprecipitates effectively refine the dynamic recrystallized(DRXed)grains.Besides,the residual dislocations existed in DRXed and un-DRXed grains result in the dislocation strengthening in the extruded alloy.Mg7Li-2Al-1.5Sn alloys possess excellent high-temperature mechanical properties with the YS,UTS and EL of 200 MPa,237 MPa and 26.7%at 423 K,respectively.Sn-rich precipitates with good thermal stability can effectively prevent grain growth,which is good for the improvement of the high-temperature performance of Mg-Li-Al-Sn alloy.
基金Projects(2016YFB07004032016YFB0301100)supported by the National Key Research and Development Program of China+3 种基金Project(cstc2019jcyj-msxmX0306)supported by the Chongqing Research Program of Basic Research and Frontier Technology,ChinaProjects(2018CDGFCL00052018CDJDCL0019)supported by the Fundamental Research Funds for the Central Universities,ChinaProject(B16007)supported by the 111 Program of Ministry of Education and the State Administration of Foreign Experts Affairs of China。
文摘The effect of rolling reduction and annealing process on the microstructure and corrosion behavior of Mg-9Li-1Zn(LZ91) alloy was investigated. The test alloy sheets were cold rolled with the reduction of 50% and 75%, respectively, and then were annealed at 200 ℃ for 1 h. The microstructure of test alloys was observed by OM and SEM while the phase composition was determined by XRD. The corrosion property was evaluated by electrochemical measurements and immersion tests. The results show that LZ91 alloy sheet consists of α-Mg, β-Li and precipitated Mg-Li-Zn compounds(MgLi2Zn and MgLiZn phases). Dynamic recrystallization grains appear in β-Li phase during annealing process, leading to grain refinement. The results indicate that the increasing rolling reduction and performing the annealing process can enhance the corrosion resistance of LZ91 alloy. The 75% cold-rolled and annealed LZ91 alloy shows the best corrosion resistance.
基金supported by grants from the National Natural Science Foundation of China(No.31330039)National 863 Project(No.2014AA10A604)the Bill&Melinda Gates Foundation(No.OPP51587)
文摘Utilization of heterosis has greatly contributed to rice productivity in China and many Asian countries. Superior hybrids usually show heterosis at two stages: canopy development at vegetative stage and panicle development at reproductive stage resulting in heterosis in yield. Although the genetic basis of heterosis in rice has been extensively investigated, all the previous studies focused on yield traits at maturity stage. In this study, we analyzed the genetic basis of heterosis at seedling stage making use of an "immortalized F2" population composed of 105 hybrids produced by intercrossing recombinant inbred lines (RILs) from a cross between Zhenshan 97 and Minghui 63, the parents of Shanyou 63, which is an elite hybrid widely grown in China. Eight seedling traits, seedling height, tiller number, leaf number, root number, maximum root length, root dry weight, shoot dry weight and total dry weight, were investigated using hydroponic culture. We analyzed single-locus and digenic genetic effects at the whole genome level using an ultrahigh-density SNP bin map obtained by population re-sequencing. The analysis revealed large numbers of heterotic effects for seedling traits including dominance, over- dominance and digenic dominance (epistasis) in both positive and negative directions. Overdominance effects were prevalent for all the traits, and digenic dominance effects also accounted for a large portion of the genetic effects. The results suggested that cumulative small advantages of the single-locus effects and two-locus interactions, most of which could not be detected statistically, could explain the genetic basis of seedling heterosis of the F1 hybrid.
基金supported by the National Key R&D Program of China(No.2021YFB3701100)the National Natural Science Foundation of China(No.52271091)the China Scholarship Council(No.202206050135)。
文摘The hot compression behavior of as-extruded Mg-0.6Mn-0.5Al-0.5Zn-0.4Ca alloy was studied on a Gleeble-3500 thermal simulation machine.Experiments were conducted at temperatures ranging from 523 to 673 K and strain rates ranging from 0.001 to 1 s^(-1).Results showed that an increase in the strain rate or a decrease in deformation temperature led to an increase in true stress.The constitutive equation and processing maps of the alloy were obtained and analyzed.The influence of deformation temperatures and strain rates on microstructural evolution and texture was studied with the assistance of electron backscatter diffraction(EBSD).The as-extruded alloy exhibited a bimodal structure that consisted of deformed coarse grains and fine equiaxed recrystallized structures(approximately 1.57μm).The EBSD results of deformed alloy samples revealed that the recrystallization degree and average grain size increased as the deformation temperature increased.By contrast,dislocation density and texture intensity decreased.Compressive texture weakened with the increase in the deformation temperature at the strain rate of 0.01 s-1.Most grains with{0001}planes tilted away from the compression direction(CD)gradually.In addition,when the strain rate decreased,the recrystallization degree and average grain size increased.Meanwhile,the dislocation density decreased.Texture appeared to be insensitive to the strain rate.These findings provide valuable insights into the hot compression behavior,microstructural evolution,and texture changes in the Mg-0.6Mn-0.5Al-0.5Zn-0.4Ca alloy,contributing to the understanding of its processing-microstructure-property relationships.
