Hypervalent hydridosilicate in the Na–Si–H system

• Published in: Frontiers in chemistry Vol. 11; p. 1251774
• Main Authors: Spektor, Kristina, Kohlmann, Holger, Druzhbin, Dmitrii, Crichton, Wilson A., Bhat, Shrikant, Simak, Sergei I., Vekilova, Olga Yu, Häussermann, Ulrich
• Format: Journal Article
• Language: English
• Published: Frontiers Media S.A 2023
• Subjects: Chemistry; crystal structure prediction; gigapascal hydrogenation; hydridosilicate; hypervalency; multi-anvil techniques; gigapascal hydrogenation; crystal structure prediction; multi-anvil techniques; hydridosilicate; hypervalency
• ISSN: 2296-2646; 2296-2646
• DOI: 10.3389/fchem.2023.1251774

Hydrogenation reactions at gigapascal pressures can yield hydrogen-rich materials with properties relating to superconductivity, ion conductivity, and hydrogen storage. Here, we investigated the ternary Na–Si–H system by computational structure prediction and in situ synchrotron diffraction studies of reaction mixtures NaH–Si–H 2 at 5–10 GPa. Structure prediction indicated the existence of various hypervalent hydridosilicate phases with compositions Na m SiH (4+m) (m = 1–3) at comparatively low pressures, 0–20 GPa. These ternary Na–Si–H phases share, as a common structural feature, octahedral SiH 6 2− complexes which are condensed into chains for m = 1 and occur as isolated species for m = 2, 3. In situ studies demonstrated the formation of the double salt Na 3 [SiH 6 ]H (Na 3 SiH 7 , m = 3) containing both octahedral SiH 6 2− moieties and hydridic H − . Upon formation at elevated temperatures (>500°C), Na 3 SiH 7 attains a tetragonal structure ( P 4/ mbm , Z = 2) which, during cooling, transforms to an orthorhombic polymorph ( Pbam , Z = 4). Upon decompression, Pbam -Na 3 SiH 7 was retained to approx. 4.5 GPa, below which a further transition into a yet unknown polymorph occurred. Na 3 SiH 7 is a new representative of yet elusive hydridosilicate compounds. Its double salt nature and polymorphism are strongly reminiscent of fluorosilicates and germanates.