Electrolytes - メーカー・企業と製品の一覧

Electrolytesの製品一覧

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Tohoku Univ. Technology:New Lithium-ion conductor:T25-024

Tohoku Univ. Technology:New Lithium-ion conductor:T25-024

Providing an inexpensive solid electrolyte that can be applied to solid-state batteries

The development of rechargeable batteries employing solid electrolytes has been actively pursued as a route toward safer and more reliable energy storage systems. Among the candidate materials, inorganic electrolytes such as sulfides, as well as polymer electrolytes, have attracted significant attention due to their high lithium-ion conductivity. Beyond ionic transport performance, extensive efforts have been devoted to improving safety, durability, and long-term stability for practical all-solid-state battery applications. Nevertheless, materials that fully satisfy industrial requirements have yet to be realized. Through sustained research efforts, we have developed a new solid electrolyte material that simultaneously addresses lithium-ion conductivity and safety. This advance was achieved by introducing targeted modifications into hydroxyapatite-based materials. While conventional hydroxyapatite exhibits negligible lithium-ion conductivity, the modified material demonstrates a conductivity of approximately 1 mS/cm at room temperature. This result establishes a new pathway toward safer and higher-performance all-solid-state batteries, with promising potential for applications in the automotive and robotics industries.

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  • Electrolytes

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[SOLIVIS] Solid Electrolyte Product Line

[SOLIVIS] Solid Electrolyte Product Line

High-performance solid electrolyte materials supporting the era of all-solid-state batteries.

SOLIVIS offers a range of solid electrolyte products specialized in the production of all-solid-state batteries. Utilizing the construction process of sulfide-based electrolytes, we cater to diverse needs, including separators that require high ionic conductivity, standard products with a balance of stability and conductivity, and fine powder products that maximize interfacial contact. We can adjust compositions according to customer requests and provide a wide variety of forms, including crystalline, amorphous, and fine powder types. Currently, we are constructing an automated production facility in South Korea (scheduled for completion in April 2025), which is expected to ensure stable supply through the establishment of mass production systems. We are engaged in transactions with major domestic automobile manufacturers and battery manufacturing companies in South Korea, and we are also considering expanding our presence in the United States and Japan in the future.

  • Batteries and Capacitors
  • Electrolytes

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Tohoku University Technology: Polyelectrolyte that easily expands and contracts with small force: T19-753

Tohoku University Technology: Polyelectrolyte that easily expands and contracts with small force: T19-753

Contribute to the realization of safer battery with less risk of ignition and rupture

Since lithium-ion battery using liquid electrolyte has risk of ignition and rupture, practical application of safe solid electrolyte is expected. Among solid electrolytes, those using polymers have an excellent ability of forming and processing. This allows to use different shape of polyelectrolyte, but high stress is applied to the electrolyte.   This invention is about a polyelectrolyte with excellent elasticity and flexibility. Since this polyelectrolyte can be highly elongated with little force, the applied stress can be easily dispersed, and shows high durability.

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Tohoku University Technology: Solid Electrolyte: T07-229

Tohoku University Technology: Solid Electrolyte: T07-229

The electrical conductivity of LiBH4 at room temperature is 10^-3 (S/cm)!

In recent years, with the spread of portable devices, the demand for small, high-capacity secondary batteries has increased. Among the secondary batteries currently in practical use, lithium-ion batteries, which have the highest energy density, use organic solvent electrolytes, raising concerns about their safety. Therefore, there is a need for solid electrolytes that are safer. Particularly in automotive applications, where the battery size is large and there is a risk of impact, there is a strong demand for improved safety. This invention relates to a novel solid electrolyte for lithium-ion batteries, characterized by a composition of LiBH4 and MX (where M is an alkali metal, and X is (1) a halogen atom or (2) an NR2 group or (3) an N2R group: where R is a hydrogen atom or an alkyl group), which demonstrates high ionic conductivity even below the transition temperature of LiBH4 at 115°C, making it useful as an electrolyte for lithium-ion secondary batteries.

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