P2-type layered oxide cathode materials have attracted extensive attention due to their simple preparation,high specific capacity,adjustable voltage range,and high packing density.However,the harmful phase transitions...P2-type layered oxide cathode materials have attracted extensive attention due to their simple preparation,high specific capacity,adjustable voltage range,and high packing density.However,the harmful phase transitions that occur at high voltage severely limit their practical application.Herein,a novel high-valence tungsten doped P2-Na_(0.67)Ni_(0.33)Mn_(0.67)O_(2)cathode material was prepared using the sol–gel method.Through diffusion kinetics analysis and in situ X-ray diffraction(in situ XRD),it has been proven that W^(6+)not only enhances the Na^(+)diffusion coefficient but also reduces the P2–O2 phase transition.The optimized NNMO-W1%delivers a high discharge specific capacity of 163 mAh·g^(-1)at 0.1C,and the capacity retention rate is as high as 77.6%after 1000 cycles at 10C.This is mainly due to that W^(6+)enters the lattice,optimizing the arrangement of primary particles.This work sheds light on the design and construction of high-performance layered oxides cathode materials.展开更多
Objective:To screen the anti-SFTSV drugs from 1430 FDA-approved drugs via mini-genome system,and to investigate which stage of the infection process could be suppressed by the identified drugs.Methods:The SFTSV mini-g...Objective:To screen the anti-SFTSV drugs from 1430 FDA-approved drugs via mini-genome system,and to investigate which stage of the infection process could be suppressed by the identified drugs.Methods:The SFTSV mini-genome system was used to screen drugs with inhibitory effect on SFTSV replication and transcription,and the 50%inhibitory concentration(IC_(50))of each drug was calculated by drug concentration gradient inhibition experiment.Drugs were used to pre-incubate with virus and then incubate with cells,to incubate with virus and cells simultaneously,to incubate with cells after virus invading into cells,or to incubate during the whole infection process,and then qRT-PCR was used to measure the viral RNA copies in the culture supernatant.These experiments were performed to quantitatively determine the inhibition effects of drugs on SFTSV indifferent stages of the whole process including virion stability,entry and post-entry stages,so as to clarify the inhibition mechanism of these drugs.Results:Four drugs including Mycophenolate mofetil,Mycophenolic acid,Nitazoxanide,and Vidofludimus were identified having efficient inhibitory effects on SFTSV RNA replication via minigenome system,with the IC_(50) of 0.014μmol/L,0.627μmol/L,1.283μmol/L,and 0.059μmol/L,respectively.All four drugs showed effective inhibition when adding during the whole SFTSV infection process as well as the post-entry stage.Conclusion:Mycophenolate mofetil,Mycophenolic acid,Nitazoxanide and Vidofludimus show efficient anti-viral effects on SFTSV infection.展开更多
It is highly desirable to enhance the long-term stability of perovskite solar cells(PSCs)so that this class of photovoltaic cells can be effectively used for the commercialization purposes.In this contribution,attempt...It is highly desirable to enhance the long-term stability of perovskite solar cells(PSCs)so that this class of photovoltaic cells can be effectively used for the commercialization purposes.In this contribution,attempts have been made to use the two-step sequential method to dope EuBr_(2)into FAMAPbI_(3)perovskite to promote the stability.It is shown that the device durability at 85℃in air with RH of 20%-40%is improved substantially,and simultaneously the champion device efficiency of 23.04%is achieved.The enhancement in stability is attributed to two points:(ⅰ)EuBr_(2)doping effectively inhibits the decomposition andα-δphase transition of perovskite under ambient environment,and(ⅱ)EuBr_(2)aggregates in the oxidized format of Eu(BrO_(3))_(3)at perovskite grain boundaries and surface,hampering humidity erosion and mitigates degradation through coordination with H_(2)O.展开更多
The obstacles of inferior microstructure and poor magnetic properties of(La,Ce)-Fe-B type magnets stand in the way of expanding their applications.In this work,(La,Ce)-Fe-B melt-spun ribbons were prepared with differe...The obstacles of inferior microstructure and poor magnetic properties of(La,Ce)-Fe-B type magnets stand in the way of expanding their applications.In this work,(La,Ce)-Fe-B melt-spun ribbons were prepared with different La/Ce ratios and rare earth contents.The microstructure and magnetic properties of these ribbons were investigated.With the La/Ce ratio increased,the fraction of the CeFe_(2)phase decreased and the β-La phase segregated among matrix grains,which deteriorated the coercivity of the ribbons.Reducing the rare earth content effectively suppressed the β-La phase and improved the proportion of the matrix phase in the ribbons.Here,the optimal alloy composite(La_(15)Ce_(85))_(14)Fe_(80)B_(6) has been obtained with modified microstructure and inhibited secondary phases.Good ribbon performance was tested,with H_(cj)=4.51 kOe,B_(r)=6.29 kG and(BH)_(max)=6.81 MGOe.展开更多
基金supported by the National Natural Science Foundation of China Key Program(No.U22A20420)Changzhou Leading Innovative Talents Introduction and Cultivation Project(No.CQ20230109)the Key Project of Jiangsu Provincial Basic Research Program(No.BK20243032)。
文摘P2-type layered oxide cathode materials have attracted extensive attention due to their simple preparation,high specific capacity,adjustable voltage range,and high packing density.However,the harmful phase transitions that occur at high voltage severely limit their practical application.Herein,a novel high-valence tungsten doped P2-Na_(0.67)Ni_(0.33)Mn_(0.67)O_(2)cathode material was prepared using the sol–gel method.Through diffusion kinetics analysis and in situ X-ray diffraction(in situ XRD),it has been proven that W^(6+)not only enhances the Na^(+)diffusion coefficient but also reduces the P2–O2 phase transition.The optimized NNMO-W1%delivers a high discharge specific capacity of 163 mAh·g^(-1)at 0.1C,and the capacity retention rate is as high as 77.6%after 1000 cycles at 10C.This is mainly due to that W^(6+)enters the lattice,optimizing the arrangement of primary particles.This work sheds light on the design and construction of high-performance layered oxides cathode materials.
基金supported by Key Program of the Joint Fund of the National Natural Science Foundation of China(No.U20A20135)。
文摘Objective:To screen the anti-SFTSV drugs from 1430 FDA-approved drugs via mini-genome system,and to investigate which stage of the infection process could be suppressed by the identified drugs.Methods:The SFTSV mini-genome system was used to screen drugs with inhibitory effect on SFTSV replication and transcription,and the 50%inhibitory concentration(IC_(50))of each drug was calculated by drug concentration gradient inhibition experiment.Drugs were used to pre-incubate with virus and then incubate with cells,to incubate with virus and cells simultaneously,to incubate with cells after virus invading into cells,or to incubate during the whole infection process,and then qRT-PCR was used to measure the viral RNA copies in the culture supernatant.These experiments were performed to quantitatively determine the inhibition effects of drugs on SFTSV indifferent stages of the whole process including virion stability,entry and post-entry stages,so as to clarify the inhibition mechanism of these drugs.Results:Four drugs including Mycophenolate mofetil,Mycophenolic acid,Nitazoxanide,and Vidofludimus were identified having efficient inhibitory effects on SFTSV RNA replication via minigenome system,with the IC_(50) of 0.014μmol/L,0.627μmol/L,1.283μmol/L,and 0.059μmol/L,respectively.All four drugs showed effective inhibition when adding during the whole SFTSV infection process as well as the post-entry stage.Conclusion:Mycophenolate mofetil,Mycophenolic acid,Nitazoxanide and Vidofludimus show efficient anti-viral effects on SFTSV infection.
基金Project supported by the Fundamental Research Program of Shanxi Province,China (Grant No.20210302124228)the National Key Research and Development Program of China (Grant No.2022YFB4200203)+1 种基金the Key Project of Natural Science Foundation of Tianjin (Grant No.22JCZDJC00120)the 111 Project (Grant No.B16027)。
文摘It is highly desirable to enhance the long-term stability of perovskite solar cells(PSCs)so that this class of photovoltaic cells can be effectively used for the commercialization purposes.In this contribution,attempts have been made to use the two-step sequential method to dope EuBr_(2)into FAMAPbI_(3)perovskite to promote the stability.It is shown that the device durability at 85℃in air with RH of 20%-40%is improved substantially,and simultaneously the champion device efficiency of 23.04%is achieved.The enhancement in stability is attributed to two points:(ⅰ)EuBr_(2)doping effectively inhibits the decomposition andα-δphase transition of perovskite under ambient environment,and(ⅱ)EuBr_(2)aggregates in the oxidized format of Eu(BrO_(3))_(3)at perovskite grain boundaries and surface,hampering humidity erosion and mitigates degradation through coordination with H_(2)O.
基金Project supported by the fifth batch of major scientific and technological research projects in the Panxi Experimental Zone of Sichuan Province,the new functional materials and applications of rare earth vanadium titanium(Grant No.2020SCUNG201).
文摘The obstacles of inferior microstructure and poor magnetic properties of(La,Ce)-Fe-B type magnets stand in the way of expanding their applications.In this work,(La,Ce)-Fe-B melt-spun ribbons were prepared with different La/Ce ratios and rare earth contents.The microstructure and magnetic properties of these ribbons were investigated.With the La/Ce ratio increased,the fraction of the CeFe_(2)phase decreased and the β-La phase segregated among matrix grains,which deteriorated the coercivity of the ribbons.Reducing the rare earth content effectively suppressed the β-La phase and improved the proportion of the matrix phase in the ribbons.Here,the optimal alloy composite(La_(15)Ce_(85))_(14)Fe_(80)B_(6) has been obtained with modified microstructure and inhibited secondary phases.Good ribbon performance was tested,with H_(cj)=4.51 kOe,B_(r)=6.29 kG and(BH)_(max)=6.81 MGOe.
