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Solid electrolytes
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Technical details for solid electrolytes

SCHOTT’s solid electrolytes are produced through a finely controlled glass-ceramic process. These materials are chemically stable, customizable and can be scaled from laboratory to production. Backed by deep technical expertise, SCHOTT supports your path from early cell design to commercialization.

Enabling high-performing batteries

Compatible with any cell design

SCHOTT draws on a long heritage in specialty glass and glass-ceramic powder technology to develop solid electrolytes for hybrid and solid-state batteries. Our electrolytes can be added to cathode composites or be used in hybrid electrolytes consisting of (conducting polymers and our electrolytes). They can also be sintered to form bulk membranes. In liquid electrolyte batteries, solid electrolytes can be used as additives in cathode composites or for forming polymer membrane coatings, which can increase the battery’s thermal stability, boosting safety and reducing shrinkage.

Tailored to your cell design

Our battery lab team can adapt solid electrolytes for diverse cell technologies and perform an array of application-relevant tests. Modification options include:

  • Adaptation of sintering temperature, e.g., for co-sintering with cathode materials
  • Customized particle size distribution for use in different battery components
  • Particle surface functionalization for optimized use in polymer composite electrolytes

Scalable production that delivers performance

Our solid electrolytes are produced using a precise glass-ceramic process that enables high reproducibility and allows fully customized material compositions. Adapted from our long-established glass-ceramic manufacturing process, our approach creates highly ion-conducting and electrochemically robust materials with high purity and homogeneity. With potential production capacities exceeding 1,000 tons per year, our scalable process can meet the volume requirements of electric vehicle and battery-energy stationary storage (BESS) markets.

Support from day one

By involving us early in your process, we can effectively support your battery design journey all the way from concept to commercialization. Partnering with SCHOTT gives you access to our expertise in inorganic high-performance materials.

Performance data

Sodium-ion conducting material
General information
Material class Silicates Na₅RSi₄O₁₂ (R = rare earth)
Production process Glass-ceramic process (melting, ceramization) and powder processing

 

Electric properties
Na-conductivity, total (at 25 °C)1 > 1 · 10⁻³ S/cm
Electronic conductivity¹ < 1 · 10⁻⁹ S/cm
Activation energy 0.3 eV – 0.35 eV

 

(Electro-) chemical properties
(Electro-) chemical stability²
 Stable against Na-metal
Interface resistance to Na2
 < 50 Ω · cm²

 

Other characteristics
Bulk density ~ 3.1 g/cm³
Powder particle size Standard D₅₀: 2–3 µm (other sizes on request)
Sintering temperature 950 °C – 1,050 °C
 
 
 
Particle size distribution

Standard milling provides the following typical particle size distribution.
Other distributions available on request.

SCHOTT_EP_Grafiken_DB_Solid_Elektrolyte_2026_04_23_1

Figure 1: Volume-weighted particle size distribution, here: D₅₀ = 2.4 µm

 

Crystal structure

XRD analysis shows a large fraction of crystalline Na₅RSi₄O₁₂.

SCHOTT_EP_Grafiken_DB_Solid_Elektrolyte_2026_04_23_2

Figure 2: X-ray diffraction pattern of SCHOTT material (light blue)
and Na₅RSi₄O₁₂ reference spectrum (dark blue)³

 

1. Conductivity of sintered pellet. Relative density > 95%
2. No visual distinctive features in material cross section and stable interfacial resistance over time when contacted with molten Na
3. Source: Maksimov, B.A., Kharitonov, Y.A., Belov, N.V. “Crystal structure of the Na-Y meta-slicate Na₅Y-Si₄O₁₂” (in English translation). Sov. Phys. Dokl. 18, 763–765 (1974)

Please note: All values are indicative only.

Download datasheet

Want to know more? Let’s talk

Whether you need more information, samples, a quote, or advice for a project, we would be delighted to talk to you.

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Dr. Niko Schultz

Senior Project Manager New Ventures