Hydrochloric Acid-Processed Silica For Battery Separators

Precipitated silica is produced by acidifying sodium silicate (water glass). When hydrochloric acid (HCl) is used as the acidifying agent, the resulting silica typically offers higher washing efficiency, lower residual metal impurities, more consistent surface chemistry, and improved pH stability compared with some other acid routes. The production sequence-acidification, precipitation control, filtration and multiple washings, then drying and classification-enables tight control of particle size, surface area, and impurity levels.

3.1 Builds an Ion-Conducting "Highway": High Porosity & Controlled Pore Structure

Silica particles form a stable 3D microporous network that increases overall porosity and creates interconnected channels for ion transport. This architecture lowers internal resistance and enhances fast-charging and high-rate discharge performance.

3.2 Exceptional Electrolyte Wettability and Liquid Retention

Abundant –OH (silanol) groups on silica surfaces attract polar electrolyte components (EC, EMC, DEC), enabling rapid wetting, uniform electrolyte distribution, and strong liquid uptake-essential for long cycle life and stable SEI formation.

3.3 Superior Thermal Stability: A Safety "Firewall"

Silica's inorganic nature and high thermal resistance act as a rigid skeleton over polyolefin films, preventing severe shrinkage or melt during thermal events and reducing the risk of internal short circuits and thermal runaway.

3.4 Mechanical Reinforcement Against Puncture and Dendrites

Uniformly dispersed  silica increases puncture resistance and tensile strength, protecting separators from physical damage during winding, stacking, and cycling.

JK SILICA is a specialized manufacturer of functional silica materials with production and R&D capabilities 

Extreme purity: advanced washing and purification, closed automated production and strict raw material controls.

Product series & customization: multiple BET levels, D50 options, and surface modification services to match coating processes.

Technical support & supply capacity: application engineering for slurry formulation, on-site troubleshooting, and stable mass production supply.

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Q: Can silica improve fast-charging performance?

A: Yes-by creating low-resistance ion pathways and improving electrolyte accessibility, silica-based coatings support enhanced fast-charging behavior.

 

Q: What binders are compatible with silica?

A: Common binders include PVDF, PAA, CMC, SBR and hybrid systems; binder selection depends on coating solvent and drying strategy.

 

Q: How does silica improve thermal safety?

A: The ceramic coating acts as a rigid skeleton that reduces PE/PP substrate shrinkage during thermal events, lowering short-circuit risk.

 

Q: What is the typical D50 for separator coating silica?

A: D50 typically ranges from 0.5 to 2.5 μm depending on design and processing needs.

 

Q:Hydrochloric Acid-Processed vs. Sulfuric Acid-Processed Silica

A:Although both products are precipitated silica, the acid choice significantly affects final properties:

Purity & Impurity Levels: HCl-route facilitates deeper washing and more efficient removal of ionic residues, allowing Fe, Cu, Na and other metals to be controlled to ppm or sub-ppm levels.

Coating Compatibility: HCl-derived silica typically yields better dispersion stability and more consistent silanol surface groups-key for uniform ceramic coating slurries.

pH Stability: Narrower pH fluctuation benefits binder systems such as PAA, CMC, and PVDF.

 

Contact JK SILICA to request product specifications, technical data sheets, or samples.
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