The Experts below are selected from a list of 22065 Experts worldwide ranked by ideXlab platform
Jiye Fang - One of the best experts on this subject based on the ideXlab platform.
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Synthesis of PbSeTe Single Ternary Alloy and Core/Shell Heterostructured Nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
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synthesis of pbsete single Ternary Alloy and core shell heterostructured nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
Zewei Quan - One of the best experts on this subject based on the ideXlab platform.
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Synthesis of PbSeTe Single Ternary Alloy and Core/Shell Heterostructured Nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
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synthesis of pbsete single Ternary Alloy and core shell heterostructured nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
A. Bobák - One of the best experts on this subject based on the ideXlab platform.
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Phase diagrams of the Ternary Alloy with a single-ion anisotropy in the mean-field approximation
Journal of Magnetism and Magnetic Materials, 2006Co-Authors: J. Dely, A. BobákAbstract:Abstract The phase diagram of the AB p C 1 - p Ternary Alloy consisting of Ising spins S A = 3 2 , S B = 2 , and S C = 5 2 is investigated by the use of a mean-field theory based on the Bogoliubov inequality for the Gibbs free energy. The effect of the single-ion anisotropy on the phase diagrams is discussed by changing values of the parameters in the model Hamiltonian and comparison is made with the recently reported finite-temperature phase diagrams for the Ternary Alloy having spin S B = 1 .
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multicritical points in the mixed ferromagnetic ferrimagnetic Ternary Alloy with a single ion anisotropy
Physical Review B, 2003Co-Authors: A. Bobák, F O Abubrig, T BalcerzakAbstract:The phase diagram of the ${\mathrm{AB}}_{p}{C}_{1\ensuremath{-}p}$ Ternary Alloy consisting of Ising spins ${S}^{A}=\frac{3}{2},$ ${S}^{B}=1,$ and ${S}^{C}=\frac{5}{2}$ in the presence of a single-ion anisotropy is investigated by the use of a mean-field theory based on the Bogoliubov inequality for the Gibbs free energy. To simulate the structure of the Ternary metal Prussian blue analog such as $({\mathrm{Ni}}_{p}^{\mathrm{II}}{\mathrm{Mn}}_{1\ensuremath{-}p}^{\mathrm{II}}{)}_{1.5}[{\mathrm{Cr}}^{\mathrm{III}}(\mathrm{C}\mathrm{N}{)}_{6}]\ensuremath{\cdot}z{\mathrm{H}}_{2}\mathrm{O},$ we assume that the A and X (either B or $C)$ ions are alternately connected and the couplings between the A and X ions include both ferromagnetic ${(J}_{\mathrm{AB}}g0)$ and antiferromagnetic ${(J}_{\mathrm{AC}}l0)$ interactions. At the finite temperatures by changing values of the parameters of the model many different types of phase diagrams are obtained, including a variety of multicritical points such as tricritical points, fourth-order point, critical end points, isolated critical points, and triple points.
Zhiping Luo - One of the best experts on this subject based on the ideXlab platform.
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Synthesis of PbSeTe Single Ternary Alloy and Core/Shell Heterostructured Nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
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synthesis of pbsete single Ternary Alloy and core shell heterostructured nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
Welley Siu Loc - One of the best experts on this subject based on the ideXlab platform.
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Synthesis of PbSeTe Single Ternary Alloy and Core/Shell Heterostructured Nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
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synthesis of pbsete single Ternary Alloy and core shell heterostructured nanocubes
Journal of the American Chemical Society, 2011Co-Authors: Zewei Quan, Zhiping Luo, Welley Siu Loc, Jun Zhang, Yuxuan Wang, Kaikun Yang, Nathan Porter, Jun Lin, Howard Wang, Jiye FangAbstract:We report a robust method for synthesis of monodisperse PbSeTe single Ternary Alloy and core/shell heterostructured nanocubes, respectively. The key synthetic strategy to produce such different classes of nanocubes is to precisely control the time of reaction and successive growth. The crystallinity, shape/size distributions, structural characteristics, and compositions of as-prepared nanocubes, both Ternary Alloy and core/shell, were carefully studied. A plausible growth mechanism for developing each type of lead chalcogenide nanocubes is proposed. These delicately designed PbSeTe nanoscale architectures offer tunable compositions in PbSeTe Ternary Alloy and nano-interfaces in core/shell nanocubes, which are the critical factors in controlling thermal conductivity for applications in thermoelectrics.
