Prediction of Stable Ground-State Lithium Polyhydrides under High Pressures
Yangmei Chen, Hua Y. Geng, Xiaozhen Yan, Yi Sun, Qiang Wu, and, Xiangrong Chen

TL;DR
This study uses advanced first-principles calculations including van der Waals interactions to predict stable structures of lithium polyhydrides under high pressure, reconciling theoretical predictions with experimental findings and identifying insulative and metallic phases.
Contribution
It introduces the inclusion of van der Waals interactions in structure prediction, revealing new stable compositions and clarifying the electronic nature of lithium polyhydrides at high pressures.
Findings
LiH2 and LiH9 are stable at 130-170 GPa.
LiH2, LiH8, and LiH10 are stable at 180-200 GPa.
LiH, LiH2, LiH7, and LiH9 are insulative up to 208 GPa.
Abstract
Hydrogen-rich compounds are important for understanding the dissociation of dense molecular hydrogen, as well as searching for room temperature Bardeen-Cooper-Schrieffer (BCS) superconductors. A recent high pressure experiment reported the successful synthesis of novel insulating lithium polyhydrides when above 130 GPa. However, the results are in sharp contrast to previous theoretical prediction by PBE functional that around this pressure range all lithium polyhydrides (LiHn (n = 2-8)) should be metallic. In order to address this discrepancy, we perform unbiased structure search with first principles calculation by including the van der Waals interaction that was ignored in previous prediction to predict the high pressure stable structures of LiHn (n = 2-11, 13) up to 200 GPa. We reproduce the previously predicted structures, and further find novel compositions that adopt more stable…
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