International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Ma...International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Materials.It is covered by EI Compendex,SCI Expanded,Chemical Abstract,etc.展开更多
The Chinese Journal of Natural Medicines(CJNM,ISSN 2095-6975),founded in 2003 and sponsored by China Pharmaceutical University,is a peer-reviewed journal published monthly in print by Science Press and online by Elsev...The Chinese Journal of Natural Medicines(CJNM,ISSN 2095-6975),founded in 2003 and sponsored by China Pharmaceutical University,is a peer-reviewed journal published monthly in print by Science Press and online by Elsevier.CJNM is currently indexed in Science Citation Index Expanded(SCIE),MEDLINE,BIOSIS Previews,BIOSIS Toxicology,CAB Abstracts.展开更多
As 2024 comes to an end,the pickup in consumption and robust growth in a range of sectors have bolstered confidence that the Chinese economy is right on track to meet the preset growth rate of around five percent.Bene...As 2024 comes to an end,the pickup in consumption and robust growth in a range of sectors have bolstered confidence that the Chinese economy is right on track to meet the preset growth rate of around five percent.Benefiting from a flurry of consumption-stimulating policies and measures,China’s online retail sales surpassed RMB 14 trillion in the January-November period,a year-on-year increase of 7.4 percent.Imports and exports maintained steady growth,climbing by 4.9 percent year-on-year in renminbi terms.Value-added industrial output also expanded 5.8 percent year-on-year.The volume of express delivery parcels reached a new high of 150 billion and is expected to grow higher still given the new-year festivities ahead.展开更多
International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Ma...International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Materials.It is covered by EI Compendex,SCI Expanded,Chemical Abstract,etc.展开更多
International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Ma...International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Materials.It is covered by EI Compendex,SCI Expanded,Chemical Abstract,etc.展开更多
Yu Lay Trading(Yu Lay Marble Development Co.,Ltd.),based in Taiwan,was founded by Liu Hsiao-Ting(Emma Liu’s parents).Initially focused on the stone industry,Yu Lay’s business has gradually expanded into areas such a...Yu Lay Trading(Yu Lay Marble Development Co.,Ltd.),based in Taiwan,was founded by Liu Hsiao-Ting(Emma Liu’s parents).Initially focused on the stone industry,Yu Lay’s business has gradually expanded into areas such as confectionery and snacks,achieving notable success along the way.As the new manager of Yu Lay Trading,Emma Liu is ready to take on the responsibilities once held by her parents.With a strong emphasis on innovation,she aims to infuse Yu Lay’s operations and lead the company toward an even brighter and more promising future.展开更多
The year 2025 marks the 45th anniversary of the establishment of diplomatic relations between China and Zimbabwe.During this period,China-Zimbabwe economic cooperation has deepened,especially in the fields of infrastr...The year 2025 marks the 45th anniversary of the establishment of diplomatic relations between China and Zimbabwe.During this period,China-Zimbabwe economic cooperation has deepened,especially in the fields of infrastructure construction,mineral resource development,and agriculture.The two sides have maintained a high degree of political mutual trust and have cooperated closely in international affairs.Cultural exchanges and people-to-people contacts have expanded,and both nations continue to work together to further deepen their partnership.展开更多
Severe segregation and poor rheological properties in crumb rubber(CR)modified asphalt(CRMT)were addressed by investigating the performance improvement effect of organic expanded vermiculite(OEV)as a comodifier,while ...Severe segregation and poor rheological properties in crumb rubber(CR)modified asphalt(CRMT)were addressed by investigating the performance improvement effect of organic expanded vermiculite(OEV)as a comodifier,while the modification mechanism of the resulting asphalt was also elucidated.Vermiculite was thermally treated and chemically modified to enhance its interaction with the asphalt matrix and CR,improving dispersion and interfacial properties.CR/OEV/furfural extract oil(OIL)composite modified asphalt(COMT)was prepared in this study.The compatibility and microscopic mechanism of modified asphalt were characterized by dynamic shear rheological test,multiple stress creep recovery(MSCR)test,BBR test,thermal segregation test,fluorescent scanning test,infrared spectroscopy,and gel permeation chromatography.Rheological tests showed that the modified asphalt exhibited improved high-temperature stability,with increased G*/sin(δ)values,and better low-temperature flexibility.Storage stability tests showed a reduced softening point difference,indicating enhanced homogeneity and reduced segregation.Microscopic analysis revealed that OEV effectively optimized the microstructure of the composite system by promoting the uniform dispersion of CR within the asphalt matrix.Furthermore,the macromolecular weight of COMT was increased by 31.9%,molecular weight analysis confirmed a higher proportion of large molecular weight fractions,contributing to enhanced rheological properties and compatibility.These findings demonstrated that OEV significantly improved the performance and durability of CRMT,providing a promising approach for sustainable road construction.展开更多
The 19th century saw significant advancements in thermodynamics and the kinetic theory of gases,with J.C.Maxwell and L.E.Boltzmann playing key roles in the development of statistical physics through their work on the ...The 19th century saw significant advancements in thermodynamics and the kinetic theory of gases,with J.C.Maxwell and L.E.Boltzmann playing key roles in the development of statistical physics through their work on the distribution of single-particle states.At the beginning of the 20th century,J.W.Gibbs established modern equilibrium statistical physics based on the statistical distribution of system microstates and the concept of ensembles.Subsequently,statistical physics expanded into the quantum and nonequilibrium domains.展开更多
The United States Food and Drug Administration's(FDA's)August 2024 determination that an additional phase Ⅱ study will be required to consider the approval of midomafetamine for the treatment of posttraumatic...The United States Food and Drug Administration's(FDA's)August 2024 determination that an additional phase Ⅱ study will be required to consider the approval of midomafetamine for the treatment of posttraumatic stress disorder(PTSD)could delay the potential approval of this promising treatment by several years.展开更多
In order to effectively improve the horizontal bearing capacity of pile foundations,this study proposes post-expanded arm grouting technology and associated pile foundations.The horizontal bearing characteristic of th...In order to effectively improve the horizontal bearing capacity of pile foundations,this study proposes post-expanded arm grouting technology and associated pile foundations.The horizontal bearing characteristic of the post-expanded arm grouting pile was explored through model tests.The test results indicate that the post-expanded arm grouting pile can increase the contact area between the pile and soil,and can improve the strength of the soil.The horizontal bearing capacity of the post-expanded arm grouting pile was approximately 3 times that of the conventional pile.It also shows that the larger the plate diameter ratio or grouting volume,the higher the horizontal bearing capacity of the post-expanded arm grouting pile.The maximum bending moment of the post-expanded arm grouting pile was located at the pile plate,and the displacement zero point of the new pile was higher than that of the conventional pile.The soil resistance at the pile plate was significantly higher than that of conventional piles,indicating that the pile plate effectively enhances the soil resistance.The improved p-y curve model and horizontal bearing capacity calculation method for the post-expanded arm grouting pile were proposed by considering the pile plate diameter factor.This method was finally verified by experimental results.The results of this study can provide a reference for calculating the horizontal bearing capacity of the post-expanded arm grouting pile.展开更多
The process of disposing of expanded polystyrene (EPS) is by burning it in municipal incinerators. This process gives off EPS microplastics, which can find their way into water, food, blood, and major organ systems. Z...The process of disposing of expanded polystyrene (EPS) is by burning it in municipal incinerators. This process gives off EPS microplastics, which can find their way into water, food, blood, and major organ systems. Zophobas morio larvae are capable of consuming and breaking down EPS within their digestive tracts by minimizing the spread of microplastics. Studies of the consumption of EPS by Z. morio larvae are typically conducted under white or no visible light treatments. This study tested whether the color of visible light influenced the consumption rate of EPS by Z. morio larvae. If Z. morio larvae consume EPS under visible light, then visible light will influence the amount of EPS consumed. If results suggest that the consumption rate is influenced by visible light colors, then Z. morio larvae could be a solution for recycling EPS. This study’s procedure placed Z. morio larvae into 25 jars under one of six visible light treatments of red, yellow, green, blue, white, and no visible light. Each jar contained a pre-weighed block of EPS and six Z. morio larvae. After two weeks, the Z. morio larvae were removed from the jars, and the difference between each pre-weighed EPS block and the weight of the same partially consumed block was recorded in three trials. The data indicates that green and blue visible light treatments resulted in the greatest amount of EPS consumed by Z. morio larvae while the red and yellow had the least amount of EPS consumed by the Z. morio larvae. In conclusion, results indicate that green and blue visible light, compared to the no visible light treatment, could be used to influence the Z. morio larvae to consume more EPS. Green and blue visible light and Z. morio larvae could make the recycling process of EPS more environmentally friendly when used in households or by local environmental organizations.展开更多
The initial step in the resource utilization of Chinese medicine residues(CMRs)involves dehydration pretreatment,which results in high concentrations of organic wastewater and leads to environmental pollution.Meanwhil...The initial step in the resource utilization of Chinese medicine residues(CMRs)involves dehydration pretreatment,which results in high concentrations of organic wastewater and leads to environmental pollution.Meanwhile,to address the issue of anaerobic systems failing due to acidification under shock loading,a microaerobic expanded granular sludge bed(EGSB)and moving bed sequencing batch reactor(MBSBR)combined process was proposed in this study.Microaeration facilitated hydrolysis,improved the removal of nitrogen and phosphorus pollutants,maintained a low concentration of volatile fatty acids(VFAs),and enhanced system stability.In addition,microaeration promoted microbial richness and diversity,enriching three phyla:Bacteroidota,Synergistota and Firmicutes associated with hydrolytic acidification.Furthermore,aeration intensity in MBSBR was optimized.Elevated levels of dissolved oxygen(DO)impacted biofilm structure,suppressed denitrifying bacteria activity,led to nitrate accumulation,and hindered simultaneous nitrification and denitrification(SND).Maintaining a DO concentration of 2 mg/L enhanced the removal of nitrogen and phosphorus while conserving energy.The combined process achieved removal efficiencies of 98.25%,90.49%,and 98.55%for chemical oxygen demand(COD),total nitrogen(TN),and total phosphorus(TP),respectively.Typical pollutants liquiritin(LQ)and glycyrrhizic acid(GA)were completely degraded.This study presents an innovative approach for the treatment of high-concentration organic wastewater and provides a reliable solution for the pollution control in utilization of CMRs resources.展开更多
To the Editor:Hepatocellular carcinoma(HCC)represents the fifth most com-mon malignancy and the third cancer-related cause of death worldwide[1].Among several treatment modalities for HCC,liver transplantation(LT)is a...To the Editor:Hepatocellular carcinoma(HCC)represents the fifth most com-mon malignancy and the third cancer-related cause of death worldwide[1].Among several treatment modalities for HCC,liver transplantation(LT)is a preferred option for selected patients[2,3],which removes the tumor and targets the underlying liver disease simultaneously.To minimize the incidence of tumor recurrence,the Milan criteria and subsequently a series of expanded criteria such as UCSF and Hangzhou criteria were introduced[4-6].How-ever,tumor recurrence,which was partially ascribed to the im-paired function of antitumor immune responses following LT,still remains a pivotal obscure that hinders long-term survival[7,8].The human liver is characterized by a dual blood supply,with 80%of blood from the portal vein carrying bacterial endotoxin from the gastrointestinal tract.Liver is thus constantly exposed to a large load of intestinal antigens.展开更多
Industrial paints exacerbate air pollution by emitting volatile organic compounds during application and drying processes.This study seeks to enhance the efficiency of Chinese natural paints and increase their accessi...Industrial paints exacerbate air pollution by emitting volatile organic compounds during application and drying processes.This study seeks to enhance the efficiency of Chinese natural paints and increase their accessibility as bio-based alternatives,thereby mitigating the adverse effects of industrial paints on the environment.The researchers incorporated ten materials into the Chinese natural lacquer,with the formulations containing 5%titanium dioxide nanoparticles and 5%polyurethane demonstrating superior performance.These formulations reduced the drying time of the Chinese natural lacquer to 12 hours and 8 hours,respectively,under climatic conditions of 34 degrees Celsius and 64%humidity,while also improving the physical properties of the expanding materials.By experimenting with the materials and processes of contemporary lacquer art,modern lacquer material drying time test,scanning electron microscope(SEM),water droplet angle test,pencil hardness test,adhesion test and other tests,expanding the modern lacquer art materials;the researchers carried out comparative experiments of creative practice,using modern Chinese lacquer materials completely original 32 lacquer paintings,20 of which were successful;the creation of lacquer paintings using the traditional methods The creation cycle of the works using the traditional method was around 2 months,as a control,the creation cycle of the lacquer paintings using the innovative method was between 2 weeks and 3 weeks,which is a drastic reduction in time.Expanded Chinese natural lacquer can contribute to the sustainable development of traditional Chinese lacquer art.展开更多
This Special Topic of the Journal of Semiconductors(JOS)features expanded versions of key articles presented at the 2024 IEEE International Conference on Integrated Circuits Technologies and Applications(ICTA),which w...This Special Topic of the Journal of Semiconductors(JOS)features expanded versions of key articles presented at the 2024 IEEE International Conference on Integrated Circuits Technologies and Applications(ICTA),which was held in Hangzhou,Zhejiang,China,from October 25 to 27,2024.展开更多
To integrate insulation and load-bearing functions in prefabricated composite wall structures,a novel design based on fiber-reinforced expanded polystyrene(EPS)con-crete is proposed.The research focuses on three key a...To integrate insulation and load-bearing functions in prefabricated composite wall structures,a novel design based on fiber-reinforced expanded polystyrene(EPS)con-crete is proposed.The research focuses on three key as-pects:material properties,seismic performance,and ther-mal performance.Firstly,the compressive strength and thermal conductivity of fiber-reinforced EPS concrete were analyzed at different sand ratios,leading to the development of an optimal mix design and a damage constitutive model.Secondly,a combination of experimental and numerical analysis methods was used to investigate the seismic perfor-mance of prefabricated composite walls with different infill materials,including autoclaved aerated fly ash and fiber-reinforced EPS concrete.Finally,thermal perfor-mance studies were conducted on prefabricated composite wall panels with different infill materials.The results indi-cate that the specimens underwent elastic,elastoplastic,and failure stages during loading.While specimens using EPS concrete exhibited a slightly lower overall bearing capacity,they demonstrated superior ductility,energy dissipation ca-pacity,and enhanced insulation and thermal stability.展开更多
On November 3,2025,United Therapeutics Corporation(Nasdaq:UTHR)announced the first clinical xenotransplantation within its EXPAND study,involving transplantation of the UKidney into a patient with end‐stage renal dis...On November 3,2025,United Therapeutics Corporation(Nasdaq:UTHR)announced the first clinical xenotransplantation within its EXPAND study,involving transplantation of the UKidney into a patient with end‐stage renal disease(ESRD)at New York University(NYU)Langone Health.The UKidney is a genetically engineered porcine kidney incorporating 10 gene modifications-6 human gene insertions to enhance immunologic compatibility and 4 porcine gene knockouts to minimize rejection risk and control graft growth[1].In the context of the first xenotransplantation studies,“EXPAND”refers to the US Food and Drug Administration(FDA)“expanded access”program,often colloquially known as compassionate use.展开更多
An estimated 3%-4%of people are living with the hepatitis B virus(HBV),and without treatment,the risk of developing cirrhosis and hepatocellular cancer(HCC)is an omnipresent threat.Prevention of HCC is a major challen...An estimated 3%-4%of people are living with the hepatitis B virus(HBV),and without treatment,the risk of developing cirrhosis and hepatocellular cancer(HCC)is an omnipresent threat.Prevention of HCC is a major challenge,as the association between viral suppression and HCC risk reduction is multifactorial,involving the progressive depletion of hepatocytes through covalently closed circular DNA integration,as well as the prevention of liver fibrosis and cirrhosis.Despite effective and cheap antiviral treatment capable of suppressing HBV replication and thereby cirrhosis and HCC,the current indications for therapy need revision and more research to expand the gamut and treat more infected people.In this review,we discuss the possible expansion of antiviral treatment in chronic hepatitis B to prevent cirrhosis and,importantly,HCC.展开更多
Mixed polyanion phosphate Na_(4)Fe_(3)(PO_(4))_(2)P_(2)O_(7)(NFPP)is regarded as the most promising cathode material for sodium-ion batteries(SIBs),due to its high structural stability and low-cost environmental frien...Mixed polyanion phosphate Na_(4)Fe_(3)(PO_(4))_(2)P_(2)O_(7)(NFPP)is regarded as the most promising cathode material for sodium-ion batteries(SIBs),due to its high structural stability and low-cost environmental friendliness.However,its intrinsic low conductivity and sluggish Na^(+)diffusion restricted the fast-charge and low-temperature sodium storage.Herein,an NFPP composite encapsulated by in-situ pyrolytic carbon and coupled with expanded graphite(NFPP@C/EG)was constructed via a sol-gel method followed by a ballmill procedure.Due to the dual-carbon modified strategy,this NFPP@C/EG only enhanced the electronic conductivity,but also endowed more channels for Na^(+)diffusion.As cathode for SIBs,the optimized NFPP(M-NFPP@C/EG)delivers excellent rate capability(capacity of~80.5 mAh/g at 50 C)and outstanding cycling stability(11000 cycles at 50 C with capacity retention of 89.85%).Additionally,cyclic voltammetry(CV)confirmed that its sodium storage behavior is pseudocapacitance-controlled,with in-situ electrochemical impedance spectroscopy(EIS)further elucidating improvements in electrode reaction kinetics.At lower temperatures(0℃),M-NFPP@C/EG demonstrated exceptional cycling performance(8800 cycles at 10 C with capacity retention of 95.81%).Moreover,pouch cells also exhibited excellent stability.This research demonstrates the feasibility of a dual carbon modification strategy in enhancing NFPP and proposes a low-cost,high-rate,and ultra-stable cathode material for SIBs.展开更多
文摘International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Materials.It is covered by EI Compendex,SCI Expanded,Chemical Abstract,etc.
文摘The Chinese Journal of Natural Medicines(CJNM,ISSN 2095-6975),founded in 2003 and sponsored by China Pharmaceutical University,is a peer-reviewed journal published monthly in print by Science Press and online by Elsevier.CJNM is currently indexed in Science Citation Index Expanded(SCIE),MEDLINE,BIOSIS Previews,BIOSIS Toxicology,CAB Abstracts.
文摘As 2024 comes to an end,the pickup in consumption and robust growth in a range of sectors have bolstered confidence that the Chinese economy is right on track to meet the preset growth rate of around five percent.Benefiting from a flurry of consumption-stimulating policies and measures,China’s online retail sales surpassed RMB 14 trillion in the January-November period,a year-on-year increase of 7.4 percent.Imports and exports maintained steady growth,climbing by 4.9 percent year-on-year in renminbi terms.Value-added industrial output also expanded 5.8 percent year-on-year.The volume of express delivery parcels reached a new high of 150 billion and is expected to grow higher still given the new-year festivities ahead.
文摘International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Materials.It is covered by EI Compendex,SCI Expanded,Chemical Abstract,etc.
文摘International Journal of Minerals,Metallurgy and Materials is dedicated to the publication and the dissemination of original research articles(and occasional invited reviews)in the fields of Minerals,Metallurgy and Materials.It is covered by EI Compendex,SCI Expanded,Chemical Abstract,etc.
文摘Yu Lay Trading(Yu Lay Marble Development Co.,Ltd.),based in Taiwan,was founded by Liu Hsiao-Ting(Emma Liu’s parents).Initially focused on the stone industry,Yu Lay’s business has gradually expanded into areas such as confectionery and snacks,achieving notable success along the way.As the new manager of Yu Lay Trading,Emma Liu is ready to take on the responsibilities once held by her parents.With a strong emphasis on innovation,she aims to infuse Yu Lay’s operations and lead the company toward an even brighter and more promising future.
文摘The year 2025 marks the 45th anniversary of the establishment of diplomatic relations between China and Zimbabwe.During this period,China-Zimbabwe economic cooperation has deepened,especially in the fields of infrastructure construction,mineral resource development,and agriculture.The two sides have maintained a high degree of political mutual trust and have cooperated closely in international affairs.Cultural exchanges and people-to-people contacts have expanded,and both nations continue to work together to further deepen their partnership.
基金supported by National Key R&D Program of China(2024YFF0510200)National Natural Science Foundation of China(52478438,52174237)+2 种基金Excellent Early Career Scientists form Germany(GZ1717)Science and Technology Project of Changsha-Outstanding Innovative Youth(kq2406007)Practice Innovation and Entrepreneurship Enhancement Program for Postgraduate of Changsha University of Science&Technology(CLSJCX24006).
文摘Severe segregation and poor rheological properties in crumb rubber(CR)modified asphalt(CRMT)were addressed by investigating the performance improvement effect of organic expanded vermiculite(OEV)as a comodifier,while the modification mechanism of the resulting asphalt was also elucidated.Vermiculite was thermally treated and chemically modified to enhance its interaction with the asphalt matrix and CR,improving dispersion and interfacial properties.CR/OEV/furfural extract oil(OIL)composite modified asphalt(COMT)was prepared in this study.The compatibility and microscopic mechanism of modified asphalt were characterized by dynamic shear rheological test,multiple stress creep recovery(MSCR)test,BBR test,thermal segregation test,fluorescent scanning test,infrared spectroscopy,and gel permeation chromatography.Rheological tests showed that the modified asphalt exhibited improved high-temperature stability,with increased G*/sin(δ)values,and better low-temperature flexibility.Storage stability tests showed a reduced softening point difference,indicating enhanced homogeneity and reduced segregation.Microscopic analysis revealed that OEV effectively optimized the microstructure of the composite system by promoting the uniform dispersion of CR within the asphalt matrix.Furthermore,the macromolecular weight of COMT was increased by 31.9%,molecular weight analysis confirmed a higher proportion of large molecular weight fractions,contributing to enhanced rheological properties and compatibility.These findings demonstrated that OEV significantly improved the performance and durability of CRMT,providing a promising approach for sustainable road construction.
基金supported by the National Natural Science Foundation of China(Grant Nos.12135003,12122402,and 12475033)the National Key R&D Program of China(Grant No.2023YFE0109000)the Fundamental Research Funds for the Central Universities。
文摘The 19th century saw significant advancements in thermodynamics and the kinetic theory of gases,with J.C.Maxwell and L.E.Boltzmann playing key roles in the development of statistical physics through their work on the distribution of single-particle states.At the beginning of the 20th century,J.W.Gibbs established modern equilibrium statistical physics based on the statistical distribution of system microstates and the concept of ensembles.Subsequently,statistical physics expanded into the quantum and nonequilibrium domains.
文摘The United States Food and Drug Administration's(FDA's)August 2024 determination that an additional phase Ⅱ study will be required to consider the approval of midomafetamine for the treatment of posttraumatic stress disorder(PTSD)could delay the potential approval of this promising treatment by several years.
基金supported by the National Natural Science Foundation of China(Grant Nos.52208333 and 52378328)China Communications Construction Company Ltd.(Grant No.2023-ZJKJ-01).
文摘In order to effectively improve the horizontal bearing capacity of pile foundations,this study proposes post-expanded arm grouting technology and associated pile foundations.The horizontal bearing characteristic of the post-expanded arm grouting pile was explored through model tests.The test results indicate that the post-expanded arm grouting pile can increase the contact area between the pile and soil,and can improve the strength of the soil.The horizontal bearing capacity of the post-expanded arm grouting pile was approximately 3 times that of the conventional pile.It also shows that the larger the plate diameter ratio or grouting volume,the higher the horizontal bearing capacity of the post-expanded arm grouting pile.The maximum bending moment of the post-expanded arm grouting pile was located at the pile plate,and the displacement zero point of the new pile was higher than that of the conventional pile.The soil resistance at the pile plate was significantly higher than that of conventional piles,indicating that the pile plate effectively enhances the soil resistance.The improved p-y curve model and horizontal bearing capacity calculation method for the post-expanded arm grouting pile were proposed by considering the pile plate diameter factor.This method was finally verified by experimental results.The results of this study can provide a reference for calculating the horizontal bearing capacity of the post-expanded arm grouting pile.
文摘The process of disposing of expanded polystyrene (EPS) is by burning it in municipal incinerators. This process gives off EPS microplastics, which can find their way into water, food, blood, and major organ systems. Zophobas morio larvae are capable of consuming and breaking down EPS within their digestive tracts by minimizing the spread of microplastics. Studies of the consumption of EPS by Z. morio larvae are typically conducted under white or no visible light treatments. This study tested whether the color of visible light influenced the consumption rate of EPS by Z. morio larvae. If Z. morio larvae consume EPS under visible light, then visible light will influence the amount of EPS consumed. If results suggest that the consumption rate is influenced by visible light colors, then Z. morio larvae could be a solution for recycling EPS. This study’s procedure placed Z. morio larvae into 25 jars under one of six visible light treatments of red, yellow, green, blue, white, and no visible light. Each jar contained a pre-weighed block of EPS and six Z. morio larvae. After two weeks, the Z. morio larvae were removed from the jars, and the difference between each pre-weighed EPS block and the weight of the same partially consumed block was recorded in three trials. The data indicates that green and blue visible light treatments resulted in the greatest amount of EPS consumed by Z. morio larvae while the red and yellow had the least amount of EPS consumed by the Z. morio larvae. In conclusion, results indicate that green and blue visible light, compared to the no visible light treatment, could be used to influence the Z. morio larvae to consume more EPS. Green and blue visible light and Z. morio larvae could make the recycling process of EPS more environmentally friendly when used in households or by local environmental organizations.
基金funding from the National Key R&D Program of China(No.2019YFC1906600)the National Natural Science Foundation of China(No.52200049)+3 种基金the China Postdoctoral Science Foundation(No.2022TQ0089)the Heilongjiang Province Postdoctoral Science Foundation(No.LBH-Z22181)the State Key Laboratory of Urban Water Resource and Environment(Harbin Institute of Technology)(No.2023DX06)the Fundamental Research Funds for the Central Universities。
文摘The initial step in the resource utilization of Chinese medicine residues(CMRs)involves dehydration pretreatment,which results in high concentrations of organic wastewater and leads to environmental pollution.Meanwhile,to address the issue of anaerobic systems failing due to acidification under shock loading,a microaerobic expanded granular sludge bed(EGSB)and moving bed sequencing batch reactor(MBSBR)combined process was proposed in this study.Microaeration facilitated hydrolysis,improved the removal of nitrogen and phosphorus pollutants,maintained a low concentration of volatile fatty acids(VFAs),and enhanced system stability.In addition,microaeration promoted microbial richness and diversity,enriching three phyla:Bacteroidota,Synergistota and Firmicutes associated with hydrolytic acidification.Furthermore,aeration intensity in MBSBR was optimized.Elevated levels of dissolved oxygen(DO)impacted biofilm structure,suppressed denitrifying bacteria activity,led to nitrate accumulation,and hindered simultaneous nitrification and denitrification(SND).Maintaining a DO concentration of 2 mg/L enhanced the removal of nitrogen and phosphorus while conserving energy.The combined process achieved removal efficiencies of 98.25%,90.49%,and 98.55%for chemical oxygen demand(COD),total nitrogen(TN),and total phosphorus(TP),respectively.Typical pollutants liquiritin(LQ)and glycyrrhizic acid(GA)were completely degraded.This study presents an innovative approach for the treatment of high-concentration organic wastewater and provides a reliable solution for the pollution control in utilization of CMRs resources.
基金supported by grants from the National Natural Science Foundation of China(82300742)Zhejiang Provincial Natural Science Foundation of China(LQ22H160052).
文摘To the Editor:Hepatocellular carcinoma(HCC)represents the fifth most com-mon malignancy and the third cancer-related cause of death worldwide[1].Among several treatment modalities for HCC,liver transplantation(LT)is a preferred option for selected patients[2,3],which removes the tumor and targets the underlying liver disease simultaneously.To minimize the incidence of tumor recurrence,the Milan criteria and subsequently a series of expanded criteria such as UCSF and Hangzhou criteria were introduced[4-6].How-ever,tumor recurrence,which was partially ascribed to the im-paired function of antitumor immune responses following LT,still remains a pivotal obscure that hinders long-term survival[7,8].The human liver is characterized by a dual blood supply,with 80%of blood from the portal vein carrying bacterial endotoxin from the gastrointestinal tract.Liver is thus constantly exposed to a large load of intestinal antigens.
文摘Industrial paints exacerbate air pollution by emitting volatile organic compounds during application and drying processes.This study seeks to enhance the efficiency of Chinese natural paints and increase their accessibility as bio-based alternatives,thereby mitigating the adverse effects of industrial paints on the environment.The researchers incorporated ten materials into the Chinese natural lacquer,with the formulations containing 5%titanium dioxide nanoparticles and 5%polyurethane demonstrating superior performance.These formulations reduced the drying time of the Chinese natural lacquer to 12 hours and 8 hours,respectively,under climatic conditions of 34 degrees Celsius and 64%humidity,while also improving the physical properties of the expanding materials.By experimenting with the materials and processes of contemporary lacquer art,modern lacquer material drying time test,scanning electron microscope(SEM),water droplet angle test,pencil hardness test,adhesion test and other tests,expanding the modern lacquer art materials;the researchers carried out comparative experiments of creative practice,using modern Chinese lacquer materials completely original 32 lacquer paintings,20 of which were successful;the creation of lacquer paintings using the traditional methods The creation cycle of the works using the traditional method was around 2 months,as a control,the creation cycle of the lacquer paintings using the innovative method was between 2 weeks and 3 weeks,which is a drastic reduction in time.Expanded Chinese natural lacquer can contribute to the sustainable development of traditional Chinese lacquer art.
文摘This Special Topic of the Journal of Semiconductors(JOS)features expanded versions of key articles presented at the 2024 IEEE International Conference on Integrated Circuits Technologies and Applications(ICTA),which was held in Hangzhou,Zhejiang,China,from October 25 to 27,2024.
基金The National Natural Science Foundation of China (No. 52168022)。
文摘To integrate insulation and load-bearing functions in prefabricated composite wall structures,a novel design based on fiber-reinforced expanded polystyrene(EPS)con-crete is proposed.The research focuses on three key as-pects:material properties,seismic performance,and ther-mal performance.Firstly,the compressive strength and thermal conductivity of fiber-reinforced EPS concrete were analyzed at different sand ratios,leading to the development of an optimal mix design and a damage constitutive model.Secondly,a combination of experimental and numerical analysis methods was used to investigate the seismic perfor-mance of prefabricated composite walls with different infill materials,including autoclaved aerated fly ash and fiber-reinforced EPS concrete.Finally,thermal perfor-mance studies were conducted on prefabricated composite wall panels with different infill materials.The results indi-cate that the specimens underwent elastic,elastoplastic,and failure stages during loading.While specimens using EPS concrete exhibited a slightly lower overall bearing capacity,they demonstrated superior ductility,energy dissipation ca-pacity,and enhanced insulation and thermal stability.
文摘On November 3,2025,United Therapeutics Corporation(Nasdaq:UTHR)announced the first clinical xenotransplantation within its EXPAND study,involving transplantation of the UKidney into a patient with end‐stage renal disease(ESRD)at New York University(NYU)Langone Health.The UKidney is a genetically engineered porcine kidney incorporating 10 gene modifications-6 human gene insertions to enhance immunologic compatibility and 4 porcine gene knockouts to minimize rejection risk and control graft growth[1].In the context of the first xenotransplantation studies,“EXPAND”refers to the US Food and Drug Administration(FDA)“expanded access”program,often colloquially known as compassionate use.
文摘An estimated 3%-4%of people are living with the hepatitis B virus(HBV),and without treatment,the risk of developing cirrhosis and hepatocellular cancer(HCC)is an omnipresent threat.Prevention of HCC is a major challenge,as the association between viral suppression and HCC risk reduction is multifactorial,involving the progressive depletion of hepatocytes through covalently closed circular DNA integration,as well as the prevention of liver fibrosis and cirrhosis.Despite effective and cheap antiviral treatment capable of suppressing HBV replication and thereby cirrhosis and HCC,the current indications for therapy need revision and more research to expand the gamut and treat more infected people.In this review,we discuss the possible expansion of antiviral treatment in chronic hepatitis B to prevent cirrhosis and,importantly,HCC.
基金supported by the National Key Research and Development Program of China(No.2022YFB2502000)the National Natural Science Foundation of China(Nos.U21A20332,51771076,U21A200970,52301266)the Science and Technology Planning Project of Guangzhou(No.2024A04J3332)。
文摘Mixed polyanion phosphate Na_(4)Fe_(3)(PO_(4))_(2)P_(2)O_(7)(NFPP)is regarded as the most promising cathode material for sodium-ion batteries(SIBs),due to its high structural stability and low-cost environmental friendliness.However,its intrinsic low conductivity and sluggish Na^(+)diffusion restricted the fast-charge and low-temperature sodium storage.Herein,an NFPP composite encapsulated by in-situ pyrolytic carbon and coupled with expanded graphite(NFPP@C/EG)was constructed via a sol-gel method followed by a ballmill procedure.Due to the dual-carbon modified strategy,this NFPP@C/EG only enhanced the electronic conductivity,but also endowed more channels for Na^(+)diffusion.As cathode for SIBs,the optimized NFPP(M-NFPP@C/EG)delivers excellent rate capability(capacity of~80.5 mAh/g at 50 C)and outstanding cycling stability(11000 cycles at 50 C with capacity retention of 89.85%).Additionally,cyclic voltammetry(CV)confirmed that its sodium storage behavior is pseudocapacitance-controlled,with in-situ electrochemical impedance spectroscopy(EIS)further elucidating improvements in electrode reaction kinetics.At lower temperatures(0℃),M-NFPP@C/EG demonstrated exceptional cycling performance(8800 cycles at 10 C with capacity retention of 95.81%).Moreover,pouch cells also exhibited excellent stability.This research demonstrates the feasibility of a dual carbon modification strategy in enhancing NFPP and proposes a low-cost,high-rate,and ultra-stable cathode material for SIBs.
