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433,048 results

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Page 1
Modified Li(7)P(3)S(11) Glass-Ceramic Electrolyte and Its Characterization.
Uchida K, Ohkubo T, Utsuno F, Yazawa K. Uchida K, et al. ACS Appl Mater Interfaces. 2021 Aug 11;13(31):37071-37081. doi: 10.1021/acsami.1c08507. Epub 2021 Aug 2. ACS Appl Mater Interfaces. 2021. PMID: 34339186
The obtained crystalline phase was analogous to the original Li(7)P(3)S(11) phase, but the conductivity was enhanced by a factor of 1.7. Based on (31)P solid-state nuclear magnetic resonance (NMR) spectroscopy, the Li(7)P(3)S(11) phase contained …
The obtained crystalline phase was analogous to the original Li(7)P(3)S(11) phase, but the conductivity was enhanced by a fact …
Influence of Mg on the Li ion mobility in Li(4-2x)Mg(x)P(2)S(6).
Neuberger S, Mathew N, Adediwura SC, Schmedt Auf der Günne J. Neuberger S, et al. Dalton Trans. 2023 Nov 21;52(45):16894-16902. doi: 10.1039/d3dt02624h. Dalton Trans. 2023. PMID: 37921442
In fact the influence of substitution on ionic conductivity is far more complex. Here the impact of Mg substitution on Li ion mobility is studied in the example of Li(4)P(2)S(6) by a combination of nuclear magnetic resonance experiments on (31)P and (7 …
In fact the influence of substitution on ionic conductivity is far more complex. Here the impact of Mg substitution on Li ion mobilit …
Li(4)SiO(4) Doped-Li(7)P(2)S(8)I solid electrolytes with high lithium stability synthesised using liquid-phase shaking.
Hikima K, Ler HJ, Indrawan RF, Muto H, Matsuda A. Hikima K, et al. RSC Adv. 2022 Mar 7;12(12):7469-7474. doi: 10.1039/d1ra09348g. eCollection 2022 Mar 1. RSC Adv. 2022. PMID: 35424691 Free PMC article.
In this study, mechanical milling and liquid-phase shaking are used to synthesise 3Li(2)S.P(2)S(5) LiI.xLi(4)SiO(4) (Li(7)P(2)S(8)I.xLi(4)SiO(4)) solid electrolytes. When mechanical milling is used, the electrolyte samples doped with 10 mol% of Li(4)Si …
In this study, mechanical milling and liquid-phase shaking are used to synthesise 3Li(2)S.P(2)S(5) LiI.xLi(4)SiO(4) (Li(7)P
Li(15)P(4)S(16)Cl(3), a Lithium Chlorothiophosphate as a Solid-State Ionic Conductor.
Liu Z, Zinkevich T, Indris S, He X, Liu J, Xu W, Bai J, Xiong S, Mo Y, Chen H. Liu Z, et al. Inorg Chem. 2020 Jan 6;59(1):226-234. doi: 10.1021/acs.inorgchem.9b01751. Epub 2019 Dec 12. Inorg Chem. 2020. PMID: 31829567
Li(15)P(4)S(16)Cl(3) can be synthesized as a pure phase via a facile solid-state reaction by heating a ball-milled mixture of Li(2)S, P(2)S(5), and LiCl at 360 C. ...Li(15)P(4)S(16)Cl(3) shows good thermodynamic stability and can be synth
Li(15)P(4)S(16)Cl(3) can be synthesized as a pure phase via a facile solid-state reaction by heating a ball-milled mixture of
Synthesis and Characterization of the Lithium-Rich Phosphidosilicates Li(10)Si(2)P(6) and Li(3)Si(3)P(7).
Eickhoff H, Toffoletti L, Klein W, Raudaschl-Sieber G, Fässler TF. Eickhoff H, et al. Inorg Chem. 2017 Jun 5;56(11):6688-6694. doi: 10.1021/acs.inorgchem.7b00755. Epub 2017 May 24. Inorg Chem. 2017. PMID: 28537719
The lithium phosphidosilicates Li(10)Si(2)P(6) and Li(3)Si(3)P(7) are obtained by high-temperature reactions of the elements or including binary Li-P precursors. Li(10)Si(2)P(6) (P2(1)/n, Z = 2, a = 7.2051(4) A, b = 6.5808(4 …
The lithium phosphidosilicates Li(10)Si(2)P(6) and Li(3)Si(3)P(7) are obtained by high-temperature reactions of …
Predicted Pressure-Induced Superconducting Transition in Electride Li_{6}P.
Zhao Z, Zhang S, Yu T, Xu H, Bergara A, Yang G. Zhao Z, et al. Phys Rev Lett. 2019 Mar 8;122(9):097002. doi: 10.1103/PhysRevLett.122.097002. Phys Rev Lett. 2019. PMID: 30932540
The interstitial electrons in Li_{6}P, with dumbbell-like connected electride states, play a dominant role in the superconducting transition. Other Li-rich phosphides, Li_{5}P, Li_{11}P_{2}, Li_{15}P_{2}, and Li
The interstitial electrons in Li_{6}P, with dumbbell-like connected electride states, play a dominant role in the superconduct …
Congener Substitution Reinforced Li(7)P(2.9)Sb(0.1)S(10.75)O(0.25) Glass-Ceramic Electrolytes for All-Solid-State Lithium-Sulfur Batteries.
Zhao BS, Wang L, Chen P, Liu S, Li GR, Xu N, Wu MT, Gao XP. Zhao BS, et al. ACS Appl Mater Interfaces. 2021 Jul 28;13(29):34477-34485. doi: 10.1021/acsami.1c10238. Epub 2021 Jul 18. ACS Appl Mater Interfaces. 2021. PMID: 34275286
Herein, we propose a congener substitution strategy to optimize Li(7)P(3)S(11) as Li(7)P(2.9)Sb(0.1)S(10.75)O(0.25) via chemical bond and structure regulation. Specifically, Li(7)P(2.9)Sb(0.1)S(10.75)O(0.25) is obtained by a Sb(2)O(5) dop …
Herein, we propose a congener substitution strategy to optimize Li(7)P(3)S(11) as Li(7)P(2.9)Sb(0.1)S(10.75)O(0. …
Predicted stable Li(5)P(2) and Li(4)P at ambient pressure: novel high-performance anodes for lithium-ion batteries.
Fei G , Duan S , Zhang M , Ren Z , Cui Y , Chen X , Liu Y , Yi W , Liu X . Fei G , et al. Phys Chem Chem Phys. 2020 Sep 14;22(34):19172-19177. doi: 10.1039/d0cp03297b. Epub 2020 Aug 19. Phys Chem Chem Phys. 2020. PMID: 32812581
However, there is still short of the promising candidate thus far because of the poor electrical conductivity or huge volume change in the already known Li-P compounds. In this work, we report two novel Li-P states, Li(5)P(2) and Li
However, there is still short of the promising candidate thus far because of the poor electrical conductivity or huge volume change in the a …
Enhanced Air Stability and High Li-Ion Conductivity of Li(6.988)P(2.994)Nb(0.2)S(10.934)O(0.6) Glass-Ceramic Electrolyte for All-Solid-State Lithium-Sulfur Batteries.
Ahmad N, Zhou L, Faheem M, Tufail MK, Yang L, Chen R, Zhou Y, Yang W. Ahmad N, et al. ACS Appl Mater Interfaces. 2020 May 13;12(19):21548-21558. doi: 10.1021/acsami.0c00393. Epub 2020 Apr 29. ACS Appl Mater Interfaces. 2020. PMID: 32286785
The interactive effect of Nb and O in the novel Li(6.988)P(2.994)Nb(0.2)S(10.934)O(0.6) glass-ceramic electrolyte results in a superior Li(+) conductivity of 2.82 mS cm(-1) and remarkable air-stability and electrochemical stability against the Li metal …
The interactive effect of Nb and O in the novel Li(6.988)P(2.994)Nb(0.2)S(10.934)O(0.6) glass-ceramic electrolyte results in a …
Revealing the Local Structure and Dynamics of the Solid Li Ion Conductor Li(3)P(5)O(14).
Duff BB, Corti L, Turner B, Han G, Daniels LM, Rosseinsky MJ, Blanc F. Duff BB, et al. Chem Mater. 2024 Jul 29;36(16):7703-7718. doi: 10.1021/acs.chemmater.4c00727. eCollection 2024 Aug 27. Chem Mater. 2024. PMID: 39220613 Free PMC article.
We have reported a comprehensive assignment of the ultraphosphate layer and layered Li(6)O(16) (26-) chains through (31)P and (6)Li MAS NMR, respectively, in conjunction with DFT. ...As shown in the (6)Li-(6)Li exchange spectroscopy NMR spectra, …
We have reported a comprehensive assignment of the ultraphosphate layer and layered Li(6)O(16) (26-) chains through (31)P and …
433,048 results
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