Fast Sodium‐Ion Conductivity in Supertetrahedral Phosphidosilicates

Abstract: Fast sodium‐ion conductors are key components of Na‐based all‐solid‐state batteries which hold promise for large‐scale storage of electrical power. We report the synthesis, crystal‐structure determination, and Na+‐ion conductivities of six new Na‐ion conductors, the phosphidosilicates Na19Si13P25, Na23Si19P33, Na23Si28P45, Na23Si37P57, LT‐NaSi2P3 and HT‐NaSi2P3, based entirely on earth‐abundant elements. They have SiP4 tetrahedra assembled interpenetrating networks of T3 to T5 supertetrahedral clusters and can… Show more

“…With respect to structure chemistry can the SiP 4 8– units in ortho phosphidosilicates Li 8 SiP 4 undergo – in analogy to ortho oxo‐silicate – formally condensation reactions resulting in vertex‐ or edge‐sharing tetrahedra. In consequence dimeric units are observed in Li 10 Si 2 P 6 , polyanionic layers in Li 3 Si 3 P 7 and three dimensional networks in Li 2 SiP 2 and LiSi 2 P 3 …”

“…The phosphide ion exhibits a higher charge compared to oxide and sulfide leading to an increased charge carrier concentration. These efforts resulted in the development of lithium phosphidotetrelates – named for their structural similarity to oxidosilicates – Li 8 SiP 4 , Li 2 SiP 2 , LiSi 2 P 3 , and α‐ and β‐Li 8 GeP 4 , which show conduction values of up to 0.1 mS · cm –1 …”

Polyanionic Frameworks in the Lithium Phosphidogermanates Li₂GeP₂ and LiGe₃P₃ – Synthesis, Structure, and Lithium Ion Mobility

“…With respect to structure chemistry can the SiP 4 8– units in ortho phosphidosilicates Li 8 SiP 4 undergo – in analogy to ortho oxo‐silicate – formally condensation reactions resulting in vertex‐ or edge‐sharing tetrahedra. In consequence dimeric units are observed in Li 10 Si 2 P 6 , polyanionic layers in Li 3 Si 3 P 7 and three dimensional networks in Li 2 SiP 2 and LiSi 2 P 3 …”

“…The phosphide ion exhibits a higher charge compared to oxide and sulfide leading to an increased charge carrier concentration. These efforts resulted in the development of lithium phosphidotetrelates – named for their structural similarity to oxidosilicates – Li 8 SiP 4 , Li 2 SiP 2 , LiSi 2 P 3 , and α‐ and β‐Li 8 GeP 4 , which show conduction values of up to 0.1 mS · cm –1 …”

Polyanionic Frameworks in the Lithium Phosphidogermanates Li₂GeP₂ and LiGe₃P₃ – Synthesis, Structure, and Lithium Ion Mobility

“…[1,2] Recently, a new class of materials, sodium phosphidosilicates, has been shown to exhibit good mobilities for Na ions up to 0.4 mS•cm -1 . [3] The compounds Na 19 Si 13 P 25 , Na 23 Si 19 P 33 , Na 23 Si 28 P 45 , Na 23 Si 37 P 57 , LT-NaSi 2 P 3 , and HT-NaSi 2 P 3 consist of supertetrahedra of SiP 4 units, which form three-dimensional channels for ion migration. [3] Fast ion conduction has also been reported for the related Li phosphidosilicates, which could even be further increased by substitution of Si by Ge.…”

“…[3] The compounds Na 19 Si 13 P 25 , Na 23 Si 19 P 33 , Na 23 Si 28 P 45 , Na 23 Si 37 P 57 , LT-NaSi 2 P 3 , and HT-NaSi 2 P 3 consist of supertetrahedra of SiP 4 units, which form three-dimensional channels for ion migration. [3] Fast ion conduction has also been reported for the related Li phosphidosilicates, which could even be further increased by substitution of Si by Ge. [4,5] The highest value for phosphide-based materials of 3 mS•cm -1 was recently reported for Li 9 AlP 4 .…”

Na₂Ge₃P₃ and Na₅Ge₇P₅ Comprising Heteroatomic Polyanions Mimicking the Structure of Fibrous Red Phosphorus

“…Solid electrolytes are functional materials where only a single ion species can migrate macroscopically as the charge carrier. Until now, many ions having relatively small ionic-size (Li + [1][2][3], Na + [4][5][6], F − [7][8][9], O 2− [10][11][12] etc.) are known to conduct in the solid lattice smoothly, and some solid electrolytes showing high conductivity are indispensable materials for electronic devices, such as batteries and chemical sensors.…”

Enhancement of bromide ion conductivity in lanthanum oxybromide based solids by doping divalent zinc ion with high electronegativity