Pressure increases the collinear AFM Neel temperature in NiBr2 to 100 K at 3 GPa while suppressing helimagnetic order above 0.8 GPa, with ab initio calculations attributing this to the second-nearest interlayer exchange j2'.
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Tensile strain boosts Li+ diffusivity in Li3YCl6 while compressive strain reduces it, but the critical temperature separating 1D hopping from 3D cooperative diffusion remains unchanged.
DFT and cluster-expansion calculations identify 4.21 Å as the threshold above which Na intercalates readily in graphite-like carbon while Li capacity peaks narrowly near 3.75 Å with AA stacking preferred for both ions.
citing papers explorer
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Opposite pressure effects on magnetic phase transitions in NiBr2
Pressure increases the collinear AFM Neel temperature in NiBr2 to 100 K at 3 GPa while suppressing helimagnetic order above 0.8 GPa, with ab initio calculations attributing this to the second-nearest interlayer exchange j2'.
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Strain-Dependent Ionic Transport in Li3YCl6 Solid Electrolytes
Tensile strain boosts Li+ diffusivity in Li3YCl6 while compressive strain reduces it, but the critical temperature separating 1D hopping from 3D cooperative diffusion remains unchanged.
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Rational Design Principles for Na- and Li-ion Carbon Anodes from Interlayer Spacing Control
DFT and cluster-expansion calculations identify 4.21 Å as the threshold above which Na intercalates readily in graphite-like carbon while Li capacity peaks narrowly near 3.75 Å with AA stacking preferred for both ions.