Li6PS5X: A Class of Crystalline Li‐Rich Solids With an Unusually High Li+ Mobility

Deiseroth, H. J.; Kong, Shiao‐Tong; Eckert, Hellmut; Vannahme, Julia; Reiner, Christof; Zaiß, Torsten; Schlösser, Marc

doi:10.1002/anie.200703900

Cited by 750 publications

(815 citation statements)

References 22 publications

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“…1 b) show a band of around 380 cm associated to the PS group. The structure of argyrodite is formed by a network of isolated PS units making hexagonal cages, which are connected to each other by an interstitial site around the halide ions [ 6, 21,22 ]. The results confirm that the process of dissolution reprecipitation and the addition of the binder do not produce negative effects on the structure of the Li PS Cl solid electrolyte.…”

Section: Methodsmentioning

confidence: 63%

Effect of the binder content on the electrochemical performance of composite cathode using Li6PS5Cl precursor solution in an all-solid-state lithium battery

Rosero-Navarro

Kinoshita

Miura

et al. 2017

Ionics

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All solid state batteries with cathode composites containing high concentration of active materials are required to achieve higher energy densities. Here, a composite cathode containing up to 89 wt% of high voltage cathode active material (LiNi Mn Co O ) was prepared by covering this with a solution derived solid electrolyte (argyrodite, Li PS Cl) and the incorporation of different content binder (ethyl cellulose). All solid state batteries were fabricated using 80Li S•20P S (mol%) glass and indium metal as a solid electrolyte and anode, respectively. The all solid state battery with a composite cathode containing 0.5 wt% of ethyl cellulose showed an initial discharge capacity of 45 mAhg at 25 °C and maintained 91.7% of the discharge capacity after ten cycles, around 30% higher than that obtained for the battery with the composite cathode without a binder.

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Section: Methodsmentioning

confidence: 63%

Effect of the binder content on the electrochemical performance of composite cathode using Li6PS5Cl precursor solution in an all-solid-state lithium battery

Rosero-Navarro

Kinoshita

Miura

et al. 2017

Ionics

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“…Above this temperature, the conductivity changes due to an order-disorder phase transition [50] and the activation energy increases to 0.35 eV (3 10 À5 W À1 cm À1 at 300 8C). [51,52] The lower conductivity of PÀNc ompounds compared to PÀSc ompoundsm ay be attributed to the higher ionic character of nitridophosphates.…”

Section: Ionic Conductivity Measurementsmentioning

confidence: 99%

Li⁺ Ion Conductors with Adamantane‐Type Nitridophosphate Anions β‐Li₁₀P₄N₁₀ and Li₁₃P₄N₁₀X₃ with X=Cl, Br

Bertschler

Dietrich

Leichtweiß

et al. 2017

Chemistry A European J

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b-Li 10 P 4 N 10 and Li 13 P 4 N 10 X 3 with X = Cl, Br have been synthesized from mixtures of P 3 N 5 ,L i 3 N, LiX,L iPN 2 ,a nd Li 7 PN 4 at temperatures below 850 8C. b-Li 10 P 4 N 10 is the lowtemperature polymorph of a-Li 10 P 4 N 10 and crystallizes in the trigonal space group R3. It is made up of non-condensed [P 4 N 10 ] 10À T2 supertetrahedra, whicha re arrangedi ns phalerite-analogous packing. Li 13 P 4 N 10 X 3 (X = Cl, Br) crystallizes in the cubic space group Fm " 3m.B oth isomorphic compounds comprise adamantane-type [P 4 N 10 ] 10À ,L i + ions, and halides, which form octahedra. These octahedra build up af ace-centered cubic packing,w hose tetrahedral voids are occupied by the [P 4 N 10 ] 10À ions. The crystal structures have been elucidated from X-ray powder diffraction data and corroborated by EDX measurements, solid-state NMR, and FTIR spectroscopy.F urthermore,w eh ave examined the phase transition between a-a nd b-Li 10 P 4 N 10 .T oc onfirm the ionic character, the migration pathways of the Li + ions have been evaluated and the ion conductivity and its temperature dependence have been determined by impedance spectroscopy.X PS measurementsh aveb een carriedo ut to analyze the stability with respect to Li metal.

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“…A = Li, Cu, Ag; B = P, As, Si, Ge; E = S, Se; X = Cl, Br, I and generally are known as Cu-, Ag-and Li-ionic conductors [25,26].…”

Section: Crystal Chemistrymentioning

confidence: 99%

Synthesis, Crystal Structure and Lithium Motion of Li₈SeN₂ and Li₈TeN₂

Bräunling

Pecher

Trots

et al. 2010

Zeitschrift anorg allge chemie

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Abstract. The compounds Li 8 EN 2 with E = Se, Te were obtained in form of orange microcrystalline powders from reactions of Li 2 E with Li 3 N. Single crystal growth of Li 8 SeN 2 additionally succeeded from excess lithium. The crystal structures were refined using single-crystal X-ray diffraction as well as X-ray and neutron powder diffraction data (I4 1 md, No. 109, Z = 4, Se: a = 7.048(1) Å, c = 9.995(1) Å, Te: a = 7.217(1) Å, c = 10.284(1) Å). Both compounds crystallize as isotypes with an anionic substructure motif known from cubic Laves phases and lithium distributed over four crystallographic sites in the void space of the anionic framework. Neutron powder diffraction pattern recorded in the temperature range from 3 K to 300 K and X-ray diffraction patterns using synchrotron radiation taken from 300 K to 1000 K reveal the structural stability of both compounds in the studied temperature range until decomposition. Motional processes of lithium atoms in the title

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Li₆PS₅X: A Class of Crystalline Li‐Rich Solids With an Unusually High Li⁺ Mobility

Cited by 750 publications

References 22 publications

Effect of the binder content on the electrochemical performance of composite cathode using Li6PS5Cl precursor solution in an all-solid-state lithium battery

Effect of the binder content on the electrochemical performance of composite cathode using Li6PS5Cl precursor solution in an all-solid-state lithium battery

Li⁺ Ion Conductors with Adamantane‐Type Nitridophosphate Anions β‐Li₁₀P₄N₁₀ and Li₁₃P₄N₁₀X₃ with X=Cl, Br

Synthesis, Crystal Structure and Lithium Motion of Li₈SeN₂ and Li₈TeN₂

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Li6PS5X: A Class of Crystalline Li‐Rich Solids With an Unusually High Li+ Mobility

Cited by 750 publications

References 22 publications

Effect of the binder content on the electrochemical performance of composite cathode using Li6PS5Cl precursor solution in an all-solid-state lithium battery

Effect of the binder content on the electrochemical performance of composite cathode using Li6PS5Cl precursor solution in an all-solid-state lithium battery

Li+ Ion Conductors with Adamantane‐Type Nitridophosphate Anions β‐Li10P4N10 and Li13P4N10X3 with X=Cl, Br

Synthesis, Crystal Structure and Lithium Motion of Li8SeN2 and Li8TeN2

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Li₆PS₅X: A Class of Crystalline Li‐Rich Solids With an Unusually High Li⁺ Mobility

Li⁺ Ion Conductors with Adamantane‐Type Nitridophosphate Anions β‐Li₁₀P₄N₁₀ and Li₁₃P₄N₁₀X₃ with X=Cl, Br

Synthesis, Crystal Structure and Lithium Motion of Li₈SeN₂ and Li₈TeN₂