针对复杂城市环境下无人机目标打击问题,引入一种基于电鳗觅食优化算法的无人机目标打击方法。该方法首先设置稀疏环境无敌防守和密集环境有敌防守2种场景并设计相应的约束条件和航迹优化代价函数以符合城市环境飞行需求,然后通过电鳗...针对复杂城市环境下无人机目标打击问题,引入一种基于电鳗觅食优化算法的无人机目标打击方法。该方法首先设置稀疏环境无敌防守和密集环境有敌防守2种场景并设计相应的约束条件和航迹优化代价函数以符合城市环境飞行需求,然后通过电鳗觅食优化算法(electric eel foraging optimization,EEFO)为无人机规划出一条合理的目标打击轨迹,最后得到其飞行轨迹和适应度值,并与SO,SCA,WOA,MFO,HHO 5种算法进行对比。实验结果表明,在稀疏环境无敌防守场景下EEFO算法比其他五种算法具有更高的轨迹规划效率和稳定性,消耗的航迹代价最小且收敛更快;在密集环境有敌防守场景下EEFO算法与其他5种算法相比,所规划出的目标打击轨迹最优且消耗的航迹代价收敛趋势更好,任务完成度最高,具有更好的表现。展开更多
BACKGROUND Acquired hemophilia A(AHA)is a rare autoimmune bleeding disorder charac-terized by autoantibodies against coagulation factor VIII(FVIII),leading to spon-taneous bleeding in patients without a personal or fa...BACKGROUND Acquired hemophilia A(AHA)is a rare autoimmune bleeding disorder charac-terized by autoantibodies against coagulation factor VIII(FVIII),leading to spon-taneous bleeding in patients without a personal or family history of bleeding disorders.While AHA has been reported in association with various cancers,this case represents,to our knowledge,the first reported instance of AHA following head and neck cancer surgery and subsequent chemoradiotherapy.CASE SUMMARY We present the case of a 65-year-old male with a history of hypopharyngeal squa-mous cell carcinoma(T4bN2cM0,AJCC 8^(th) edition)who developed AHA after extensive surgical resection and chemoradiotherapy.He presented with recurrent hemoptysis and ecchymosis.Coagulation studies showed isolated prolonged activated partial thromboplastin time of 83.8 seconds that did not correct with mixing studies.FVIII activity was<1%,and a Bethesda assay confirmed FVIII inhibitors with a titer of 18.4 Bethesda units.Hemostasis was initially achieved with tranexamic acid and batroxobin.Immunosuppression with prednisone and cyclophosphamide was started;due to gastrointestinal bleeding,rituximab was added.Treatment was later transitioned to azathioprine with prednisone,fol-lowed by tapering.FVIII activity recovered to 188.2%,and the patient remained in remission over six years without AHA or malignancy recurrence.CONCLUSION This case underscores vigilance for AHA after head and neck cancer therapy to enable prompt treatment.展开更多
This review presents a comprehensive and forward-looking analysis of how Large Language Models(LLMs)are transforming knowledge discovery in the rational design of advancedmicro/nano electrocatalyst materials.Electroca...This review presents a comprehensive and forward-looking analysis of how Large Language Models(LLMs)are transforming knowledge discovery in the rational design of advancedmicro/nano electrocatalyst materials.Electrocatalysis is central to sustainable energy and environmental technologies,but traditional catalyst discovery is often hindered by high complexity,fragmented knowledge,and inefficiencies.LLMs,particularly those based on Transformer architectures,offer unprecedented capabilities in extracting,synthesizing,and generating scientific knowledge from vast unstructured textual corpora.This work provides the first structured synthesis of how LLMs have been leveraged across various electrocatalysis tasks,including automated information extraction from literature,text-based property prediction,hypothesis generation,synthesis planning,and knowledge graph construction.We comparatively analyze leading LLMs and domain-specific frameworks(e.g.,CatBERTa,CataLM,CatGPT)in terms of methodology,application scope,performance metrics,and limitations.Through curated case studies across key electrocatalytic reactions—HER,OER,ORR,and CO_(2)RR—we highlight emerging trends such as the growing use of embedding-based prediction,retrieval-augmented generation,and fine-tuned scientific LLMs.The review also identifies persistent challenges,including data heterogeneity,hallucination risks,lack of standard benchmarks,and limited multimodal integration.Importantly,we articulate future research directions,such as the development of multimodal and physics-informedMatSci-LLMs,enhanced interpretability tools,and the integration of LLMswith selfdriving laboratories for autonomous discovery.By consolidating fragmented advances and outlining a unified research roadmap,this review provides valuable guidance for both materials scientists and AI practitioners seeking to accelerate catalyst innovation through large language model technologies.展开更多
Excessive osteoclastogenesis-mediated osteoporosis has been recognized as a global health concern.Candidate compounds derived from medicinal plants or functional foods are promising to treat osteoporosis due to their ...Excessive osteoclastogenesis-mediated osteoporosis has been recognized as a global health concern.Candidate compounds derived from medicinal plants or functional foods are promising to treat osteoporosis due to their high safety and efficiency.(−)-Epigallocatechin-3-gallate(EGCG)is the most abundant and biologically active polyphenol in green tea.It can inhibit osteoclastogenesis in vitro by blocking receptor activator of nuclear factor(NF)-κB(RANK)signaling pathways.This study used the ovariectomized(OVX)mouse model to estimate the therapeutic effect of EGCG on osteoporosis and verified the molecular mechanism in vivo.The results revealed that EGCG significantly inhibited the OVX-induced body weight gain.Moreover,no adverse effects were observed on blood glucose,histomorphological features,weights,as well as indices of liver and kidney in OVX mice.EGCG could significantly ameliorate bone loss in OVX mice by inhibiting osteoclastogenesis.This effect was evidenced by the reduced number of osteoclasts and the increased trabecular bone area in the femurs.Moreover,EGCG inhibited the activities of c-telopeptide of type I collagen(CTX-I)and tartrate-resistant acid phosphatase 5b(TRACP-5b)and strengthened bone gla protein(BGP)and procollagen I N-terminal peptide(PINP)activities in OVX mice.Mechanistically,EGCG significantly downregulated the expression of osteoclastogenesis-related marker genes and proteins,including nuclear factor of activated T cells,cytoplasmic 1(NFATc1),c-Fos,tartrate-resistant acid phosphatase(TRAP),c-Src,and cathepsin K.In addition,the phosphorylation levels of p65,c-Jun N-terminal kinase(JNK),extracellular signal-regulated kinase 1/2(ERK1/2),p38,and protein kinase B(AKT)were significantly suppressed in OVX mice.It was found that EGCG could alleviate OVX-induced bone loss in mice by suppressing osteoclastogenesis by blocking the NF-κB,mitogen-activated protein kinase(MAPK),and AKT signaling pathways.EGCG has the potential to prevent and treat osteoclast-related diseases such as osteoporosis.展开更多
Non-alcoholic fatty liver disease(NAFLD)is a metabolic disease characterized by abnormal deposition of lipid in hepatocytes.If not intervened in time,NAFLD may develop into liver fibrosis or liver cancer,and ultimatel...Non-alcoholic fatty liver disease(NAFLD)is a metabolic disease characterized by abnormal deposition of lipid in hepatocytes.If not intervened in time,NAFLD may develop into liver fibrosis or liver cancer,and ultimately threatening life.NAFLD has complicated etiology and pathogenesis,and there are no effective therapeutic means and specific drugs.Currently,insulin sensitizers,lipid-lowering agents and hepatoprotective agents are often used for clinical intervention,but these drugs have obvious side effects,and their effectiveness and safety need to be further confirmed.Adenosine monophosphate(AMP)-activated protein kinase(AMPK)plays a central role in maintaining energy homeostasis.Activated AMPK can enhance lipid degradation,alleviate insulin resistance(IR),suppress oxidative stress and inflammatory response,and regulate autophagy,thereby alleviating NAFLD.Natural herbal medicines have received extensive attention recently because of their regulatory effects on AMPK and low side effects.In this article,we reviewed the biologically active natural herbal medicines(such as natural herbal medicine formulas,extracts,polysaccharides,andmonomers)that reported in recent years to treatNAFLD via regulating AMPK,which can serve as a foundation for subsequent development of candidate drugs for NAFLD.展开更多
Most commercial plastics cannot easily degrade,which raises a number of sustainability issues.To address the current problem of plastic pollution,the research and development of easily degradable and recyclable polyme...Most commercial plastics cannot easily degrade,which raises a number of sustainability issues.To address the current problem of plastic pollution,the research and development of easily degradable and recyclable polymers has become an attractive subject.Herein,a new monomer of thiosalicylic methyl glycolide(TSMG)was synthesized using one-pot method and high molecular weight poly(thiosalicylic methyl glycolide)(PTSMG,M_(n) up to 300 kDa)can be obtained via the ring-opening polymerization(ROP)of TSMG.PTSMG exhibits good closed-loop recyclability and hydrolytic degradability,where PTSMG can generate pristine monomers through sublimation thermal depolymerization conditions due to the presence of thiophenol ester bond in the polymer chains,and can be degraded rapidly in aqueous solution,which provides a potential solution to the current plastic pollution problem.展开更多
The dynamic mechanical response and deformation mechanism of magnesium-yttrium alloy at high strain rate were investigated using split-Hopkinson pressure bar(SHPB)impact,and the microstructure evolution and crack form...The dynamic mechanical response and deformation mechanism of magnesium-yttrium alloy at high strain rate were investigated using split-Hopkinson pressure bar(SHPB)impact,and the microstructure evolution and crack formation mechanism were revealed.The yield strength and work hardening rate increase significantly with increasing impact strain rate.Deformation twinning and non-basal dislocation slip are the primary deformation mechanisms during testing.Contrary to crack initiation mechanism facilitated by adiabatic shear bands,we find that high-density co-axial nanocrystalline grains form near cracks,which leads to local softening and promotes crack initiation and rapid propagation.Most grains have similar<1^(-)21^(-)0>orientations,with unique misorientation of 24°,32°,62°,78°and 90°between adjacent grains,suggesting that these grains are primarily formed by interface transformation,which exhibits distinct differences from recrystallized grains.Our results shed light upon the dynamic mechanical response and crack formation mechanism in magnesium alloys under impact deformation.展开更多
The serrated flow behavior,known as the Portevin-Le Chatelier(PLC)effect,is commonly observed during high-temperature deformation.In this study,we report a serrated flow behavior in FeCoCrNiMo0.2 high-entropy alloy(HE...The serrated flow behavior,known as the Portevin-Le Chatelier(PLC)effect,is commonly observed during high-temperature deformation.In this study,we report a serrated flow behavior in FeCoCrNiMo0.2 high-entropy alloy(HEA),which is mediated by nano-twinning and phase transformation at cryogenic temperatures.During uniaxial tensile deformation at 77 K,the alloy exhibited the formation of high-density deformation nano-twinning,cross-twinning,stacking faults(SFs)and Lomer-Cottrell locks(L-C locks).Additionally,the lower stacking fault energy(SFE)at low temperatures promotes the formation of the 9R phase.The high-density twin boundaries effectively hinder dislocation movement,leading to the instability of plastic deformation and promoting the serrated flow behavior.Furthermore,the rapid and unstable transformation of the 9R phase contributes to the pronounced serrated flow behavior.Nano-twinning,SFs,cross-twinning,L-C locks and 9R phase collectively induce a dynamic Hall-Petch effect,enhancing the strength-ductility synergy and strain-hardening ability of deformed alloy at 77 K.Our work provides valuable insights into the mechanism of tensile deformation at cryogenic temperatures in single-phase FCC HEA.展开更多
Due to its broken out-of-plane symmetry,z-cut periodically poled lithium niobate(PPLN)has exhibited ultrahigh second-order optical nonlinearity.Precise quantification of the domain structure of z-cut PPLN plays a crit...Due to its broken out-of-plane symmetry,z-cut periodically poled lithium niobate(PPLN)has exhibited ultrahigh second-order optical nonlinearity.Precise quantification of the domain structure of z-cut PPLN plays a critical role during poling fabrication.To enhance the imaging detection efficiency of the domain structure in z-cut PPLN,we have developed a second-harmonic generation microscope system specifically designed to produce a longitudinal electric field in foci for the imaging domain inversion.We demonstrated that imaging using a longitudinal electric field can achieve a contrast ratio enhancement by a factor of 1.77,showing high imaging efficiency and making the proposed method suitable for in situ monitoring of the z-cut PPLN poling process.展开更多
The high band gap of zinc oxide(ZnO)has significantly limited its potential application for organic contaminant removal in photocatalysis.In this study,ZnO/halloysites(HNTs)composites(ZnO/HNTs)were prepared using a hi...The high band gap of zinc oxide(ZnO)has significantly limited its potential application for organic contaminant removal in photocatalysis.In this study,ZnO/halloysites(HNTs)composites(ZnO/HNTs)were prepared using a high-temperature calcination method to enhance the removal of tetracycline hydrochloride(TCH).The experimental results demonstrated that the band gap of ZnO/HNTs decreased to 3.12 eV,compared to 3.21 eV for pure ZnO.The observed removal rate(k_(obs))of TCH in the ZnO/HNTs/vis system was 1.90×10^(-2) min^(-1),significantly higher than the rates in the HNTs/vis(1.25×10^(-3)min^(-1))and ZnO/vis(1.13×10^(-2) min^(-1))systems.Additionally,ZnO/HNTs exhibited strong resistance to coexisting natural organic and inorganic matter,maintaining high pollutant removal efficiency in natural water samples.The ZnO/HNTs/vis system also effectively removed other common organic pollutants,such as ciprofloxacin and methylene blue.Cycle tests indicated that the ZnO/HNTs/vis system retained 65.57%of its original efficiency,demonstrating good reusability and versatility.Scavenging and electron paramagnetic resonance experiments identified that h+was the primary species in the ZnO/HNTs/vis system,with other species playing auxiliary roles in TCH degradation.This study provides valuable insights into the design of novel ZnO-based photocatalysts for the degradation of organic pollutants in water.展开更多
文摘针对复杂城市环境下无人机目标打击问题,引入一种基于电鳗觅食优化算法的无人机目标打击方法。该方法首先设置稀疏环境无敌防守和密集环境有敌防守2种场景并设计相应的约束条件和航迹优化代价函数以符合城市环境飞行需求,然后通过电鳗觅食优化算法(electric eel foraging optimization,EEFO)为无人机规划出一条合理的目标打击轨迹,最后得到其飞行轨迹和适应度值,并与SO,SCA,WOA,MFO,HHO 5种算法进行对比。实验结果表明,在稀疏环境无敌防守场景下EEFO算法比其他五种算法具有更高的轨迹规划效率和稳定性,消耗的航迹代价最小且收敛更快;在密集环境有敌防守场景下EEFO算法与其他5种算法相比,所规划出的目标打击轨迹最优且消耗的航迹代价收敛趋势更好,任务完成度最高,具有更好的表现。
文摘BACKGROUND Acquired hemophilia A(AHA)is a rare autoimmune bleeding disorder charac-terized by autoantibodies against coagulation factor VIII(FVIII),leading to spon-taneous bleeding in patients without a personal or family history of bleeding disorders.While AHA has been reported in association with various cancers,this case represents,to our knowledge,the first reported instance of AHA following head and neck cancer surgery and subsequent chemoradiotherapy.CASE SUMMARY We present the case of a 65-year-old male with a history of hypopharyngeal squa-mous cell carcinoma(T4bN2cM0,AJCC 8^(th) edition)who developed AHA after extensive surgical resection and chemoradiotherapy.He presented with recurrent hemoptysis and ecchymosis.Coagulation studies showed isolated prolonged activated partial thromboplastin time of 83.8 seconds that did not correct with mixing studies.FVIII activity was<1%,and a Bethesda assay confirmed FVIII inhibitors with a titer of 18.4 Bethesda units.Hemostasis was initially achieved with tranexamic acid and batroxobin.Immunosuppression with prednisone and cyclophosphamide was started;due to gastrointestinal bleeding,rituximab was added.Treatment was later transitioned to azathioprine with prednisone,fol-lowed by tapering.FVIII activity recovered to 188.2%,and the patient remained in remission over six years without AHA or malignancy recurrence.CONCLUSION This case underscores vigilance for AHA after head and neck cancer therapy to enable prompt treatment.
文摘This review presents a comprehensive and forward-looking analysis of how Large Language Models(LLMs)are transforming knowledge discovery in the rational design of advancedmicro/nano electrocatalyst materials.Electrocatalysis is central to sustainable energy and environmental technologies,but traditional catalyst discovery is often hindered by high complexity,fragmented knowledge,and inefficiencies.LLMs,particularly those based on Transformer architectures,offer unprecedented capabilities in extracting,synthesizing,and generating scientific knowledge from vast unstructured textual corpora.This work provides the first structured synthesis of how LLMs have been leveraged across various electrocatalysis tasks,including automated information extraction from literature,text-based property prediction,hypothesis generation,synthesis planning,and knowledge graph construction.We comparatively analyze leading LLMs and domain-specific frameworks(e.g.,CatBERTa,CataLM,CatGPT)in terms of methodology,application scope,performance metrics,and limitations.Through curated case studies across key electrocatalytic reactions—HER,OER,ORR,and CO_(2)RR—we highlight emerging trends such as the growing use of embedding-based prediction,retrieval-augmented generation,and fine-tuned scientific LLMs.The review also identifies persistent challenges,including data heterogeneity,hallucination risks,lack of standard benchmarks,and limited multimodal integration.Importantly,we articulate future research directions,such as the development of multimodal and physics-informedMatSci-LLMs,enhanced interpretability tools,and the integration of LLMswith selfdriving laboratories for autonomous discovery.By consolidating fragmented advances and outlining a unified research roadmap,this review provides valuable guidance for both materials scientists and AI practitioners seeking to accelerate catalyst innovation through large language model technologies.
基金supported by grants from the National Natural Science Foundation of China(82404638)the Xingdian Talent Plan of Yunnan Province(XDYC-QNRC-2023-0427,XDYC-YLXZ 2022-0025)the Natural Science Foundation of Yunnan Province(202101BD070001-034,202101BD070001-049,202201AT070267,202201AU070183).
文摘Excessive osteoclastogenesis-mediated osteoporosis has been recognized as a global health concern.Candidate compounds derived from medicinal plants or functional foods are promising to treat osteoporosis due to their high safety and efficiency.(−)-Epigallocatechin-3-gallate(EGCG)is the most abundant and biologically active polyphenol in green tea.It can inhibit osteoclastogenesis in vitro by blocking receptor activator of nuclear factor(NF)-κB(RANK)signaling pathways.This study used the ovariectomized(OVX)mouse model to estimate the therapeutic effect of EGCG on osteoporosis and verified the molecular mechanism in vivo.The results revealed that EGCG significantly inhibited the OVX-induced body weight gain.Moreover,no adverse effects were observed on blood glucose,histomorphological features,weights,as well as indices of liver and kidney in OVX mice.EGCG could significantly ameliorate bone loss in OVX mice by inhibiting osteoclastogenesis.This effect was evidenced by the reduced number of osteoclasts and the increased trabecular bone area in the femurs.Moreover,EGCG inhibited the activities of c-telopeptide of type I collagen(CTX-I)and tartrate-resistant acid phosphatase 5b(TRACP-5b)and strengthened bone gla protein(BGP)and procollagen I N-terminal peptide(PINP)activities in OVX mice.Mechanistically,EGCG significantly downregulated the expression of osteoclastogenesis-related marker genes and proteins,including nuclear factor of activated T cells,cytoplasmic 1(NFATc1),c-Fos,tartrate-resistant acid phosphatase(TRAP),c-Src,and cathepsin K.In addition,the phosphorylation levels of p65,c-Jun N-terminal kinase(JNK),extracellular signal-regulated kinase 1/2(ERK1/2),p38,and protein kinase B(AKT)were significantly suppressed in OVX mice.It was found that EGCG could alleviate OVX-induced bone loss in mice by suppressing osteoclastogenesis by blocking the NF-κB,mitogen-activated protein kinase(MAPK),and AKT signaling pathways.EGCG has the potential to prevent and treat osteoclast-related diseases such as osteoporosis.
基金funded by the Chongqing Clinical Pharmacy Key Specialties Construction Project,Central Guidance for Local Scientific and Technological Development Special Project of Sichuan Province,China(Grant No.:2023ZYD0283)Natural Science Foundation of Chongqing Municipality,China(Grant No.:CSTB2024NSCQ-MSX1180).
文摘Non-alcoholic fatty liver disease(NAFLD)is a metabolic disease characterized by abnormal deposition of lipid in hepatocytes.If not intervened in time,NAFLD may develop into liver fibrosis or liver cancer,and ultimately threatening life.NAFLD has complicated etiology and pathogenesis,and there are no effective therapeutic means and specific drugs.Currently,insulin sensitizers,lipid-lowering agents and hepatoprotective agents are often used for clinical intervention,but these drugs have obvious side effects,and their effectiveness and safety need to be further confirmed.Adenosine monophosphate(AMP)-activated protein kinase(AMPK)plays a central role in maintaining energy homeostasis.Activated AMPK can enhance lipid degradation,alleviate insulin resistance(IR),suppress oxidative stress and inflammatory response,and regulate autophagy,thereby alleviating NAFLD.Natural herbal medicines have received extensive attention recently because of their regulatory effects on AMPK and low side effects.In this article,we reviewed the biologically active natural herbal medicines(such as natural herbal medicine formulas,extracts,polysaccharides,andmonomers)that reported in recent years to treatNAFLD via regulating AMPK,which can serve as a foundation for subsequent development of candidate drugs for NAFLD.
基金supported by the National Key R&D Program of China(No.2023YFA1506804)the National Natural Science Foundation of China(Nos.22471110,22171111,22131007 and 22071093)+1 种基金the Science Foundation of Gansu Province of China(No.22JR5RA406)the Fundamental Research Funds for the Central Universities(No.lzujbky-2023-15)。
文摘Most commercial plastics cannot easily degrade,which raises a number of sustainability issues.To address the current problem of plastic pollution,the research and development of easily degradable and recyclable polymers has become an attractive subject.Herein,a new monomer of thiosalicylic methyl glycolide(TSMG)was synthesized using one-pot method and high molecular weight poly(thiosalicylic methyl glycolide)(PTSMG,M_(n) up to 300 kDa)can be obtained via the ring-opening polymerization(ROP)of TSMG.PTSMG exhibits good closed-loop recyclability and hydrolytic degradability,where PTSMG can generate pristine monomers through sublimation thermal depolymerization conditions due to the presence of thiophenol ester bond in the polymer chains,and can be degraded rapidly in aqueous solution,which provides a potential solution to the current plastic pollution problem.
基金support from the National Natural Science Foundation of China(Grant Nos.52301137,51974097,52364050)the Natural Science Special Foundation of Guizhou University(No.(2023)20)+1 种基金Guizhou Province Science and Technology Project(Grant Nos.[2023]001,[2019]2163)Guiyang city Science and Technology Project(Grant No.[2023]48-16).
文摘The dynamic mechanical response and deformation mechanism of magnesium-yttrium alloy at high strain rate were investigated using split-Hopkinson pressure bar(SHPB)impact,and the microstructure evolution and crack formation mechanism were revealed.The yield strength and work hardening rate increase significantly with increasing impact strain rate.Deformation twinning and non-basal dislocation slip are the primary deformation mechanisms during testing.Contrary to crack initiation mechanism facilitated by adiabatic shear bands,we find that high-density co-axial nanocrystalline grains form near cracks,which leads to local softening and promotes crack initiation and rapid propagation.Most grains have similar<1^(-)21^(-)0>orientations,with unique misorientation of 24°,32°,62°,78°and 90°between adjacent grains,suggesting that these grains are primarily formed by interface transformation,which exhibits distinct differences from recrystallized grains.Our results shed light upon the dynamic mechanical response and crack formation mechanism in magnesium alloys under impact deformation.
基金supported by the National Natural Science Foundation of China(Nos.52474403,52364050 and 52301137)Guizhou Provincial Program on Commercialization of Scientific and Technological Achievements(No.[2023]001)+2 种基金Guizhou Province Science and Technology Project(No.[2022]050)Guiyang city Science and Technology Project(No.[2023]48-16)the Central Government in Guidance of Local Science and Technology Development Funds(No.[2024]032).
文摘The serrated flow behavior,known as the Portevin-Le Chatelier(PLC)effect,is commonly observed during high-temperature deformation.In this study,we report a serrated flow behavior in FeCoCrNiMo0.2 high-entropy alloy(HEA),which is mediated by nano-twinning and phase transformation at cryogenic temperatures.During uniaxial tensile deformation at 77 K,the alloy exhibited the formation of high-density deformation nano-twinning,cross-twinning,stacking faults(SFs)and Lomer-Cottrell locks(L-C locks).Additionally,the lower stacking fault energy(SFE)at low temperatures promotes the formation of the 9R phase.The high-density twin boundaries effectively hinder dislocation movement,leading to the instability of plastic deformation and promoting the serrated flow behavior.Furthermore,the rapid and unstable transformation of the 9R phase contributes to the pronounced serrated flow behavior.Nano-twinning,SFs,cross-twinning,L-C locks and 9R phase collectively induce a dynamic Hall-Petch effect,enhancing the strength-ductility synergy and strain-hardening ability of deformed alloy at 77 K.Our work provides valuable insights into the mechanism of tensile deformation at cryogenic temperatures in single-phase FCC HEA.
基金supported by the National Key Research and Development Program of China(Grant Nos.2022YFC3401100 and 2022YFF0712500)the Guangdong Major Project of Basic and Applied Basic Research(Grant No.2020B0301030009)+2 种基金the National Natural Science Foundation of China(Grant Nos.12204017,12004012,12004013,12041602,91750203,91850111,and 92150301)the China Postdoctoral Science Foundation(Grant No.2020M680220 and 2020M680230)the Clinical Medicine Plus X-Young Scholars Project,Peking University,Fundamental Research Funds for the Central Universities.
文摘Due to its broken out-of-plane symmetry,z-cut periodically poled lithium niobate(PPLN)has exhibited ultrahigh second-order optical nonlinearity.Precise quantification of the domain structure of z-cut PPLN plays a critical role during poling fabrication.To enhance the imaging detection efficiency of the domain structure in z-cut PPLN,we have developed a second-harmonic generation microscope system specifically designed to produce a longitudinal electric field in foci for the imaging domain inversion.We demonstrated that imaging using a longitudinal electric field can achieve a contrast ratio enhancement by a factor of 1.77,showing high imaging efficiency and making the proposed method suitable for in situ monitoring of the z-cut PPLN poling process.
基金financially supported by the National Natural Science Foundation of China(Nos.52270149,51908528,2200013)Natural Science Foundation of Henan Province,China(No.242300421443)+1 种基金The Science and Technology Key Project of Henan Province,China(No.242102321073)Doctoral Fund Project of Henan University of Technology,China(Nos.2020BS005,2023BS004).
文摘The high band gap of zinc oxide(ZnO)has significantly limited its potential application for organic contaminant removal in photocatalysis.In this study,ZnO/halloysites(HNTs)composites(ZnO/HNTs)were prepared using a high-temperature calcination method to enhance the removal of tetracycline hydrochloride(TCH).The experimental results demonstrated that the band gap of ZnO/HNTs decreased to 3.12 eV,compared to 3.21 eV for pure ZnO.The observed removal rate(k_(obs))of TCH in the ZnO/HNTs/vis system was 1.90×10^(-2) min^(-1),significantly higher than the rates in the HNTs/vis(1.25×10^(-3)min^(-1))and ZnO/vis(1.13×10^(-2) min^(-1))systems.Additionally,ZnO/HNTs exhibited strong resistance to coexisting natural organic and inorganic matter,maintaining high pollutant removal efficiency in natural water samples.The ZnO/HNTs/vis system also effectively removed other common organic pollutants,such as ciprofloxacin and methylene blue.Cycle tests indicated that the ZnO/HNTs/vis system retained 65.57%of its original efficiency,demonstrating good reusability and versatility.Scavenging and electron paramagnetic resonance experiments identified that h+was the primary species in the ZnO/HNTs/vis system,with other species playing auxiliary roles in TCH degradation.This study provides valuable insights into the design of novel ZnO-based photocatalysts for the degradation of organic pollutants in water.
