High power all solid state batteries using sulfide superionic conductors
High power all solid state batteries using sulfide superionic conductors
硫化物系超イオン伝導体を用いた高出力全固体電池
High-power all-solid-state batteries using sulfide superionic conductors 2016年3月21日 Nature Energy 1: 16030 doi: 10.1038/nenergy.2016.30 拡大する × 硫化物系超イオン伝導体を用いた高出力全固体電池
Progress in lithium thioborate superionic conductors
All-solid-state batteries can greatly improve safety and energy/power density, bringing superionic conductors to the research frontier of this field. Among all studied solid
Surface-Modified Lithium Enabling High-Performance All-Solid-State
Sulfide-based all-solid-state lithium metal batteries (ASSLMBs) are promising next-generation batteries due to their high energy density and safety. However, lithium anodes face
Crystallization behaviors in superionic conductor Na3PS4
Recent studies have shown that sulfide-based lithium-ion conductors such as Li 3 to the best of our knowledge, direct observation of the crystallization process in sodium
Promising All-Solid-State Batteries for Future
A review. Lithium batteries are characterized by high specific energy, high efficiency and long life. These unique properties have made lithium batteries the power sources of choice for the consumer electronics market
High-rate and durable sulfide-based all-solid-state lithium battery
High-rate and durable sulfide-based all-solid-state lithium battery with in situ Li 2 O buffering. High-power all-solid-state batteries using sulfide superionic conductors. Nat.
Solid electrolytes open doors to solid -state batteries
solid electrolytes. All-solid-state batteries built using the solid electrolytes exhibit excellent properties, including high power and high energy densities, and could be usedin long
Origin of fast ion diffusion in super-ionic conductors
A sulphide lithium super ion conductor is superior to liquid ion conductors for use in rechargeable batteries. Y. et al. High-power all-solid-state batteries using sulfide superionic
High-power all-solid-state batteries using sulfide superionic
Here we report lithium superionic conductors with an exceptionally high conductivity (25 mS cm ‑1 for Li 9.54 Si 1.74 P 1.44 S 11.7 Cl 0.3), as well as high stability ( ∼0 V versus Li
Size-controlled wet-chemical synthesis of sulfide superionic conductors
Sulfide solid-state electrolytes (SEs) are the most promising candidate to be employed in high-energy-density all-solid-state lithium batteries due to high ionic conductivity.
High-power all-solid-state batteries using sulfide superionic conductors
Compared with lithium-ion batteries with liquid electrolytes, all-solid-state batteries o er an attractive option owing to their potential in improving the safety and achieving both high power
Sci-Hub | High-power all-solid-state batteries using sulfide superionic
Kato, Y., Hori, S., Saito, T., Suzuki, K., Hirayama, M., Mitsui, A., Kanno, R. (2016). High-power all-solid-state batteries using sulfide superionic conductors.
Size-controlled wet-chemical synthesis of sulfide superionic conductors
Addressing these challenges, this study presents a novel, scalable, and cost-efficient wet synthesis approach to produce superionic conductive sulfide-based SEs. This
Batteries: Getting solid
Materials with high ionic conductivity are urgently needed for the development of solid-state lithium batteries. Now, an inorganic solid electrolyte is shown to have an
Yuki Katoh
High-power all-solid-state batteries using sulfide superionic conductors Y Kato, S Hori, T Saito, K Suzuki, M Hirayama, A Mitsui, Discharge performance of all-solid-state battery using a
High-power all-solid-state batteries using sulfide superionic
Compared with lithium-ion batteries with liquid electrolytes, all-solid-state batteries offer an attractive option owing to their potential in improving the safety and achieving both high power
High-power all-solid-state batteries using sulfide superionic
High-power all-solid-state batteries using sulfide superionic conductors Here we report lithium superionic conductors with an exceptionally high conductivity (25 mS cm −1 for
Metal Halide Superionic Conductors for All-Solid
Toward high performance all-solid-state lithium or sodium metal batteries: Potential application on Li/Na-rich antiperovskites (LiRAPs/NaRAPs) electrolyte for energy storage.
Kanno-Suzuki Laboratory | 東京工業大
In March 2018, the All-Solid-State Battery Unit was established under the Institute of Innovative Research, Tokyo Tech. In April 2021, based on the Unit, the Research Center for All-Solid
High-power all-solid-state batteries using sulfide superionic
Compared with lithium-ion batteries with liquid electrolytes, all-solid-state batteries offer an attractive option owing to their potential in improving the safety and achieving both high power
Research | 東京工業大学 科学技術創成研究院 全固体電池
"High power all-solid-state batteries using sulfide superionic conductors", Nature Energy, 1, Article number: 16030 (2016) ・ Exploration of oxide-based lithium conductors Oxide materials are
Impedance characterization reveals mixed conducting interphases
All-solid-state batteries with Li metal as the negative electrode have already been demonstrated successfully. After 10.000 cycles, 90% capacity was retained in combination
High-power all-solid-state batteries using sulfide superionic conductors
High-power all-solid-state batteries using sulfide superionic conductors Nature Energy ( IF 49.7 Submission Guide > ) Pub Date: 2016-03-21, DOI: 10.1038/nenergy.2016.30
Understanding the impedance spectra of all-solid-state lithium battery
ASSBs can widen the range of operation temperature at high power density when employing solid electrolytes (SEs) with high thermal stability, high ionic conductivity, and high
High-power all-solid-state batteries using sulfide superionic
Here we report lithium superionic conductors with an exceptionally high conductivity (25 mS cmfor LiSiPSCl), as well as high stability ( ∼0 V versus Li metal for LiPS). A fabricated all-solid-state
"双碳"背景下固态锂电池用硫化物固态电解质的发展
Sulfide all-solid-state lithium batteries (ASSLBs) incorporate an inorganic sulfide solid-state electrolyte in place of the commonly used liquid electrolyte, presenting a solution to the flammable and explosive safety
Understanding the impedance spectra of all-solid-state lithium battery
The all-solid-state battery (ASSB) that uses a solid lithium ion conductor as the electrolyte, instead of a liquid electrolyte as in current lithium batteries, is a promising
High-power all-solid-state batteries using sulfide
Here we report lithium superionic conductors with an exceptionally high conductivity (25 mS cm −1 for Li 9.54 Si 1.74 P 1.44 S 11.7 Cl 0.3), as
High-power all-solid-state batteries using sulfide
Despite extensive research e˙orts, the development of all-solid-state batteries still falls short of expectation largely because of the lack of suitable candidate materials for the...
High-power all-solid-state batteries using sulfide superionic
High-power all-solid-state batteries using sulfide superionic conductors 使用硫化物超离子导体的大功率全固态电池 Short sample tests of full-scale superconducting
High‐Areal‐Capacity Sulfur Cathode Enabled by Dual‐Phase
All-solid-state lithium–sulfur batteries (ASSLSBs) incorporating sulfide-based superionic conductors offer high safety and energy density and are cost-efficient. However, the
基于硫化物电解质的全固态锂离子电池负极研究进展
摘要: 全固态锂电池(ASSLBs)比目前的液态锂电池具有更高的能量密度与安全性,是下一代能量存储设备的主要研究方向。相较于其他电解质,硫化物固态电解质具有超高离子电导率、硬度低、易加工、界面接触好等特
High-power all-solid-state batteries using sulfide superionic
Here we report lithium superionic conductors with an exceptionally high conductivity (25 mS cm(-1) for Li9.54Si1.74P1.44S11.7Cl0.3), as well as high stability (similar to 0V versus Li metal for
High-performance all-solid-state lithium batteries enabled by high
Lithium-ion batteries with liquid electrolytes have been extensively applied in electric vehicles and electronic devices, while their further development is restricted by the
6 FAQs about [High power all solid state batteries using sulfide superionic conductors]
Are lithium superionic conductors suitable for all-solid-state batteries?
Despite extensive research e˙orts, the development of all-solid-state batteries still falls short of expectation largely because of the lack of suitable candidate materials for the electrolyte required for practical applications. Here we report lithium superionic conductors with an exceptionally high conductivity (25mScm1for Li
What is a lithium superionic conductor?
Here we report lithium superionic conductors with an exceptionally high conductivity (25 mS cm −1 for Li 9.54 Si 1.74 P 1.44 S 11.7 Cl 0.3), as well as high stability ( ∼ 0 V versus Li metal for Li 9.6 P 3 S 12). A fabricated all-solid-state cell based on this lithium conductor is found to have very small internal resistance, especially at 100 ∘ C.
What is a sulphide lithium super ion conductor?
Seino, Y. et al. A sulphide lithium super ion conductor is superior to liquid ion conductors for use in rechargeable batteries. Energy Environ. Sci. 7, 627–631 (2014). Kamaya, N. et al. A lithium superionic conductor. Nature Mater. 10, 682–686 (2011). Wang, Y. et al. Design principles for solid-state lithium superionic conductors.
Do all-solid-state batteries have high power density?
The development of all-solid-state batteries requires fast lithium conductors. Here, the authors report a lithium compound, Li9.54Si1.74P1.44S11.7Cl0.3, with an exceptionally high conductivity and demonstrate that all-solid-state batteries based on the compound have high power densities.
What is a fabricated all-solid-state cell based on a lithium ion conductor?
9.54Si1.74P1.44S11.7Cl0.3), as well as high stability (˘0V versus Li metal for Li9.6P3S12). A fabricated all-solid-state cell based on this lithium conductor is found to have very small internal resistance, especiallyat100C.Thecellpossesseshighspecificpowerthatissuperiortothatofconventionalcellswithliquidelectrolytes.
Which ionic conductor has the highest electrochemical stability?
In the present study, we discovered that lithium superionic conductors, Li 9.54 Si 1.74 P 1.44 S 11.7 Cl 0.3 and Li 9.6 P 3 S 12, showed the highest ionic conductivity reported for lithium conductivity, and high electrochemical stability versus lithium metal.
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