Selective Synthesis of Perovskite Oxyhydrides Using a High-Pressure Flux Method.
Jinya SuzukiHiroyasu OkochiNaoki MatsuiTeppei NagaseHaruki TochizawaHiroki SaharaTakumi NishikuboYuki SakaiTakuya OhmiZhao PanTakashi SaitoHiroyuki SaitohAtsunori IkezawaHajime AraiRyoji KannoTakafumi YamamotoMasaki AzumaPublished in: Journal of the American Chemical Society (2023)
Oxyhydrides with multi-anions (O 2- and H - ) are a recently developed material family and have attracted attention as catalysts and hydride ion conductors. High-pressure and high-temperature reactions are effective in synthesizing oxyhydrides, but the reactions sometimes result in inhomogeneous products due to insufficient diffusion of the solid components. Here, we synthesized new perovskite oxyhydrides SrVO 2.4 H 0.6 and Sr 3 V 2 O 6.2 H 0.8 . We demonstrated that the addition of SrCl 2 flux promotes diffusion during high-pressure and high-temperature reactions, and can be used for selective synthesis of the oxyhydride phases. We conducted in-situ synchrotron X-ray diffraction measurements to reveal the role of this flux and reaction pathways. We also demonstrated the electronic and magnetic properties of the newly synthesized oxyhydrides and that they work as anode materials for Li-ion batteries with excellent reversibility and high-rate characteristics, the first case with an oxyhydride. Our synthesis approach would also be effective in synthesizing various types of multi-component systems.