Tessellated granular packings preserve elastic anisotropy up to 100 times higher than crystalline solids by inheriting voxel properties while restricting grain rearrangements.
Zunger, Inverse design in search of materials with tar- get functionalities, Nature Reviews Chemistry 2, 0121 (2018)
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Synthesis and parallel optoelectronic study of eight (Sb,Bi)(S,Se)(Br,I) chalcohalides shows tunable bandgaps from 1.38 to 2.08 eV and links phonon structure to reduced non-radiative recombination via solid-solution engineering.
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Preserving elastic anisotropy with tessellations of granular packings
Tessellated granular packings preserve elastic anisotropy up to 100 times higher than crystalline solids by inheriting voxel properties while restricting grain rearrangements.
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Parallel Exploration of the Optoelectronic Properties of (Sb,Bi)(S,Se)(Br,I) Chalcohalides
Synthesis and parallel optoelectronic study of eight (Sb,Bi)(S,Se)(Br,I) chalcohalides shows tunable bandgaps from 1.38 to 2.08 eV and links phonon structure to reduced non-radiative recombination via solid-solution engineering.