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Superconductivity above 105 K in Nonclathrate Ternary Lanthanum Borohydride below Megabar Pressure.

Xiaoxu SongXiaokuan HaoXudong WeiXin-Ling HeHanyu LiuLiang MaGuangtao LiuHongbo WangJingyu NiuShaojie WangYanpeng QiZhongyuan LiuWentao HuBo XuLin WangGuoying GaoYongjun Tian
Published in: Journal of the American Chemical Society (2024)
Hydrides are promising candidates for achieving room-temperature superconductivity, but a formidable challenge remains in reducing the stabilization pressure below a megabar. In this study, we successfully synthesized a ternary lanthanum borohydride by introducing the nonmetallic element B into the La-H system, forming robust B-H covalent bonds that lower the pressure required to stabilize the superconducting phase. Electrical transport measurements confirm the presence of superconductivity with a critical temperature ( T c ) of up to 106 K at 90 GPa, as evidenced by zero resistance and T c shift under an external magnetic field. X-ray diffraction and transport measurements identify the superconducting compound as LaB 2 H 8 , a nonclathrate hydride, whose crystal structure remains stable at pressures as low as ∼ half megabar (59 GPa). Stabilizing superconductive stoichiometric LaB 2 H 8 in a submegabar pressure regime marks a substantial advancement in the quest for high- T c superconductivity in polynary hydrides, bringing us closer to the ambient pressure conditions.
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