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Solid-solution strengthening effects in binary Ni-based alloys evaluated by high-throughput calculations
TL;DR: In this paper, high throughput density functional theory calculations were performed to quantitatively assess the strengthening effects of 35 potential alloying elements from the 2nd to the 6th row of the periodic table in FCC-Ni with varying concentrations.
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Lattice Parameters and Paramagnetic Susceptibility of Nickel-Rich Nickel-Niobium Solid Solutions
TL;DR: The lattice parameters of solid solutions of Niobium in nickel have been determined up to 8 atom percent niobium as discussed by the authors, and the paramagnetic susceptibility of nickel-niobium alloys has been measured up to about 1500 °K for the first time.
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Phase transitions and caloric effects in ferroelectric solid solutions of ammonium and rubidium hydrosulfates
E. A. Mikhaleva,E. A. Mikhaleva,Igor N. Flerov,Igor N. Flerov,V. S. Bondarev,V. S. Bondarev,Mikhail V. Gorev,Mikhail V. Gorev,Alexander D. Vasiliev,Alexander D. Vasiliev,T. N. Davydova +10 more
TL;DR: In this paper, it has been shown that the consequences of the Landau theory can be applied to the description of the temperature dependences of the anomalous heat capacity and the electrocaloric effect over a wide range of temperatures.
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Facile one-pot synthesis and band gap calculations of ZnxCd1−xS nanorods
TL;DR: In this article, the authors reported that Zn x Cd 1− x S (ZnCdS) nanorods can be synthesized via a facile, nontoxic one-pot method.
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Li(Al1-zZnz) alloys as anode materials for rechargeable Li-ion batteries
I. V. Chumak,Grygoriy Dmytriv,Volodymyr Pavlyuk,Steffen Oswald,Jürgen Eckert,Henning Trill,Hellmut Eckert,Hermann Pauly,Helmut Ehrenberg +8 more
TL;DR: In this paper, the cycling behavior of anode materials based on alloys from the Li(Al1-zZnz) continuous solid solution has been studied and the underlying structure evolution during cycling and the most relevant fatigue mechanisms are elucidated by xray diffraction, nuclear magnetic resonance, and x-ray photoelectron spectroscopy, revealing a loss of mobile Li due to the ongoing formation of solid electrolyte interfaces.