本文报道了新的含铜的氧化物的物相 Pr_(1.3)Bi_(0.1)Sr_(0.3)Ca_(0.2)Cu_2O_6的制奋、单晶结构和电磁性能.由单晶 X 射线衍射数据分析,该氧化物属四方晶系,空间群 D_(4λ)^(17)—l4/mmm.测得晶胞常数为α=3.831×10^(-10)m,c=19.64...本文报道了新的含铜的氧化物的物相 Pr_(1.3)Bi_(0.1)Sr_(0.3)Ca_(0.2)Cu_2O_6的制奋、单晶结构和电磁性能.由单晶 X 射线衍射数据分析,该氧化物属四方晶系,空间群 D_(4λ)^(17)—l4/mmm.测得晶胞常数为α=3.831×10^(-10)m,c=19.642×10^(-10)m,Z=2,V=288.3×10^(-20)m^3。在4.5—300K 温度范围内,该物相不显超导性能。经高压纯氧气氛焙烧或经纯160 Pa 氧焙烧后再经氩气氛处理的 Pr_(2-x)(Sr,Ca)_(l+2)Cu_2O_(?)(x≈0至0.4)样品也不显超导性能.展开更多
Because of their interesting properties and potential applications, nanometer-size parti-cles have attracted scientists’attention during the past decade. Various methods forsynthesizing the nanometer-size materials, ...Because of their interesting properties and potential applications, nanometer-size parti-cles have attracted scientists’attention during the past decade. Various methods forsynthesizing the nanometer-size materials, including consolidation from vapor, ma-trix-mediated synthesis, ball-milling, magnetic sputtering, electrochemical techniques, and ar-rested precipitation reactions in solutions, have been reported. Every method has its ad-vantages and limitations and new approaches are desirable. Since Becker and hiscoworkers first reported H<sub>2</sub>,Ar and N<sub>2</sub> cluster beams formed from free jet expansions,展开更多
Molecular dynamics (MD) computer simulations have been carried out to study the structures, properties and crystal nucleation of nanoparticles with 453 Cu atoms. Structure information was analyzed from the MD simula...Molecular dynamics (MD) computer simulations have been carried out to study the structures, properties and crystal nucleation of nanoparticles with 453 Cu atoms. Structure information was analyzed from the MD simulations, while properties of nanoparticles of Cu453, such as melting point, freezing temperature, heat capacity and mo- lar volumes, have been estimated. The face center cubic (FCC) phase and icosahedron (Ih) phase were observed during the quenching process, and nucleation rates of crystallization to FCC crystal of Cu453 at temperatures of 650, 700, 750, and 800 K were analyzed. Both classical nucleation theory (CNT) and diffuse interface theory (DIT) were used to interpret our observed nucleation rates. The free energy and diffuse interface thickness between the liquid and the FCC crystal phases were estimated by the CNT and DIT respectively, and the results show that the DIT does not work properly to the system.展开更多
Molecular dynamics computer simulation based on the Born-Mayer-Huggins potential function has been carried out to study the effects of cluster size and temperature on the nucleation rate of sodium chloride clusters in...Molecular dynamics computer simulation based on the Born-Mayer-Huggins potential function has been carried out to study the effects of cluster size and temperature on the nucleation rate of sodium chloride clusters in the temperature range of 580 K to 630 K. Clusters with 256 and 500 NaCl molecules have been studied and the results have been compared with those obtained from 108 molecule clusters. The melting point (MP) of the clusters were observed to increase with the size of the clusters and can be well described by a linear equation MP=1107(37)-1229(23)N -1/3 (N is the number of molecules in the cluster). The nucleation rate was found to decrease with increasing the cluster size or temperature. Various nucleation theories have been used to interpret the nucleation rates obtained from this molecular dynamics simulation. It is possible to use a constant diffuse interface thickness to interpret the nucleation rate from the diffuse interface theory in the temperature range of this study. However,the interfacial free energy estimated from classical nucleation theory and diffuse interface theory increases too fast with increasing the temperature while that from Gran-Gunton theory does not change with changing temperatures. The sizes of critical nuclei estimated from all the theories are smaller than those estimated from our simulations.展开更多
文摘本文报道了新的含铜的氧化物的物相 Pr_(1.3)Bi_(0.1)Sr_(0.3)Ca_(0.2)Cu_2O_6的制奋、单晶结构和电磁性能.由单晶 X 射线衍射数据分析,该氧化物属四方晶系,空间群 D_(4λ)^(17)—l4/mmm.测得晶胞常数为α=3.831×10^(-10)m,c=19.642×10^(-10)m,Z=2,V=288.3×10^(-20)m^3。在4.5—300K 温度范围内,该物相不显超导性能。经高压纯氧气氛焙烧或经纯160 Pa 氧焙烧后再经氩气氛处理的 Pr_(2-x)(Sr,Ca)_(l+2)Cu_2O_(?)(x≈0至0.4)样品也不显超导性能.
基金Project supported by a grant from the National Science Foundation of the USA.
文摘Because of their interesting properties and potential applications, nanometer-size parti-cles have attracted scientists’attention during the past decade. Various methods forsynthesizing the nanometer-size materials, including consolidation from vapor, ma-trix-mediated synthesis, ball-milling, magnetic sputtering, electrochemical techniques, and ar-rested precipitation reactions in solutions, have been reported. Every method has its ad-vantages and limitations and new approaches are desirable. Since Becker and hiscoworkers first reported H<sub>2</sub>,Ar and N<sub>2</sub> cluster beams formed from free jet expansions,
文摘Molecular dynamics (MD) computer simulations have been carried out to study the structures, properties and crystal nucleation of nanoparticles with 453 Cu atoms. Structure information was analyzed from the MD simulations, while properties of nanoparticles of Cu453, such as melting point, freezing temperature, heat capacity and mo- lar volumes, have been estimated. The face center cubic (FCC) phase and icosahedron (Ih) phase were observed during the quenching process, and nucleation rates of crystallization to FCC crystal of Cu453 at temperatures of 650, 700, 750, and 800 K were analyzed. Both classical nucleation theory (CNT) and diffuse interface theory (DIT) were used to interpret our observed nucleation rates. The free energy and diffuse interface thickness between the liquid and the FCC crystal phases were estimated by the CNT and DIT respectively, and the results show that the DIT does not work properly to the system.
文摘Molecular dynamics computer simulation based on the Born-Mayer-Huggins potential function has been carried out to study the effects of cluster size and temperature on the nucleation rate of sodium chloride clusters in the temperature range of 580 K to 630 K. Clusters with 256 and 500 NaCl molecules have been studied and the results have been compared with those obtained from 108 molecule clusters. The melting point (MP) of the clusters were observed to increase with the size of the clusters and can be well described by a linear equation MP=1107(37)-1229(23)N -1/3 (N is the number of molecules in the cluster). The nucleation rate was found to decrease with increasing the cluster size or temperature. Various nucleation theories have been used to interpret the nucleation rates obtained from this molecular dynamics simulation. It is possible to use a constant diffuse interface thickness to interpret the nucleation rate from the diffuse interface theory in the temperature range of this study. However,the interfacial free energy estimated from classical nucleation theory and diffuse interface theory increases too fast with increasing the temperature while that from Gran-Gunton theory does not change with changing temperatures. The sizes of critical nuclei estimated from all the theories are smaller than those estimated from our simulations.