EV battery pack with aerogel thermal barrier visualization
Levron Aerogel — 7 Years R&D · 14,000 m² Production Facility

Advanced Aerogel
Thermal Barriers
for Critical Applications

0.012 W/m·K thermal conductivity · -200°C to +1300°C operating range · 165° water contact angle · Super hydrophobic · Commercially ready from our integrated 14,000 m² facility.

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Engineered for
EV Battery Safety Petrochemical Industrial Insulation Cryogenic & Defense
Thermal runaway propagation diagram showing cell failure, heat propagation, and cascading failure stages
The Critical Safety Challenge

Thermal Runaway
Is a Chain Reaction

When a single lithium-ion cell fails, it can release extreme heat — rapidly propagating to neighboring cells and triggering a cascading thermal event that endangers the entire battery system.

01

Cell-Level Failure

Internal short circuit or defect causes rapid temperature rise exceeding 400°C within a single cell.

02

Heat Propagation

Without adequate barriers, thermal energy conducts to adjacent cells through direct contact and hot gas venting at 350°C+.

03

Cascading Failure

Multiple cells enter thermal runaway, creating an uncontrolled exothermic event with risk of fire and explosion.

Levron Aerogel Felt withstands 1000°C direct flame exposure — even at just 2cm thickness, it outlasts 5cm stone wool + 4cm glass wool combined. Passive thermal protection as the last line of defense.
0.012 W/m·K
World's lowest thermal conductivity class
-200°C to +1300°C
Extreme temperature operating range
165° Contact Angle
Super hydrophobic up to 650°C
700 m² / gram
Massive surface area for superior performance
20+ Year Lifespan
Stable long-term performance guaranteed
Our Products

Two Core Product Lines
Engineered for Performance

Silica-based aerogel materials produced via our proprietary Sol-Gel process — available as flexible felt or precision granules for diverse application requirements.

Levron Aerogel Felt

Flexible Thermal Barrier Sheet

Silica-based super hydrophobic felt produced from Levron Aerogel reinforced with stabilized glass wool. Available with ceramic wool variant for extreme temperatures up to 1300°C.

Temperature Range -200°C to +650°C
Ceramic Variant Up to 1300°C
Thermal Conductivity 0.012–0.016 W/m·K
Hydrophobicity 165° contact angle
Expected Lifetime 20+ years
Super Hydrophobic Fire Resistant Cryogenic Compatible Impact Resistant Oleophilic Eco-Friendly
Technical Datasheet MSDS Document

Levron Aerogel Granules

Precision Silica Aerogel Particles

First used by NASA in space applications. Silica aerogel granules produced via Sol-Gel technique — the lightest known solid material with extraordinary insulation properties.

Temperature Range -200°C to +650°C
Thermal Conductivity 0.016 W/m·K
Surface Area 700+ m² per gram
Sound Insulation Up to 25 dB
Air Permeability >90%
Super Hydrophobic Adjustable Transparency Vibration Barrier Energy Damping Oleophilic Human-Safe
Technical Datasheet MSDS Document
Verified Material Properties

Six Extraordinary Properties
One Material Platform

Each property independently verified through laboratory testing. Real performance data, not theoretical estimates.

01
🔥

Thermal Insulation

0.012–0.016 W/m·K

Nano cell diameters of 50–100 nm limit air molecule movement. Contains >90% air by volume. 2cm Levron Felt matches the insulation of 6cm stone wool — and maintains performance when wet, unlike conventional materials.

Heat capacity: 1000 J/kg/K
02
💧

Super Hydrophobicity

165° contact angle

Water contact angle of 165° means complete water and moisture resistance. Super hydrophobic effect remains active up to 650°C. Mechanical impacts do not reduce hydrophobic performance. Verified via SEM micrographs and BET analysis.

Active hydrophobicity up to 650°C
03
🛡️

Fire Resistance

1000°C+ flame tested

At 1000°C direct flame: 5cm stone wool + 4cm glass wool failed at 9 minutes. 2cm Levron Aerogel Felt survived continuous flame — test stopped voluntarily. Fire insulation with dramatically thinner layers.

2cm Levron > 9cm conventional materials
04
🔬

Filtration

700+ m² per gram

Extraordinary surface area enables nano and micro particle capture. Used in factory chimney heavy metal collection. Oil cleanup capability (oleophilic) — reusable and regenerable. Also used by NASA for space dust collection.

Reusable oleophilic filtration
05
⚖️

Surface Tension

5 dyn/cm²

Ultra-low surface tension of 5 dyn/cm². Just 20g of Levron Felt can support 320g weight on water — a 16:1 ratio. Surface free energy analyzed via Lifshitz-van der Waals/acid-base approach.

20g felt supports 320g on water
06
🌬️

Air Permeability

>90% air permeable

Simultaneously water-resistant AND air-permeable — a unique dual property. Suitable for breathable clothing, technical textiles, and architectural applications requiring ventilation with thermal protection.

Water-blocked, air-permeable
Performance Highlights

Engineering-Grade Performance
Verified in Laboratory Testing

Key performance parameters from real Levron Aerogel testing. Every number represents measured, not theoretical, performance.

0.012
W/m·K thermal conductivity
Nano-Porous Insulation
Among the lowest thermal conductivity values of any solid material. 50–100 nm nano-cells trap air at the molecular level, blocking conduction, convection, and radiation.
1300°C
max temperature (ceramic variant)
Extreme Heat Capability
Standard glass wool variant: -200°C to +650°C. Ceramic wool variant pushes the upper limit to 1300°C — suitable for the most extreme thermal environments.
165°
water contact angle
Super Hydrophobic
Complete water and moisture rejection. Conventional insulation loses 50%+ efficiency when wet. Levron maintains full performance in any humidity or moisture condition.
700 m²
surface area per gram
Extraordinary Surface Area
Each gram of Levron Aerogel has over 700 m² of internal surface area — enabling exceptional filtration, chemical absorption, and thermal control capabilities.
>90%
air content / permeability
Ultra-Light Architecture
Over 90% air by volume creates an extremely lightweight material with minimal mass. Simultaneously air-permeable and water-blocking — a unique dual property.
20+
year expected lifespan
Long-Term Durability
Maintains insulation performance, hydrophobicity, and structural integrity across decades. No maintenance, no performance degradation, no bacteria or mold growth.
Solutions by Application

Engineered for Critical
Thermal Protection Needs

From EV battery systems to petrochemical plants — Levron Aerogel addresses the most demanding thermal management challenges across industries.

EV Battery Safety
How do you prevent thermal runaway propagation?
Cell-to-cell and module-level thermal barriers. 2cm Levron Felt withstands 1000°C direct flame — providing critical containment time for battery safety systems.
Explore application →
🏭
Petrochemical & Industrial
How do you insulate extreme-heat processes efficiently?
Pipe and boiler insulation, high-temperature furnace lining, hot/cold water tanks. 3x thinner than stone wool at equal performance — saving space and reducing installation costs.
Explore application →
❄️
Cryogenic Applications
How do you insulate at -200°C without moisture failure?
Super hydrophobic insulation rated to -200°C. Unlike conventional cryogenic insulators, Levron Felt maintains full performance regardless of moisture exposure.
Explore application →
🚗
Automotive & Aerospace
How do you achieve thermal management in weight-critical vehicles?
Ultra-lightweight insulation for land and air vehicle thermal management, engine compartments, and cabin insulation. >90% air content minimizes mass impact.
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🏗️
Construction & Building
How do you achieve maximum insulation in minimum wall thickness?
Roof, floor, and wall insulation — between bricks or panels. Levron Felt prevents bacteria and mold growth, maintains performance for 20+ years, with zero maintenance.
Explore application →
Technology Platform

Precision-Engineered
Aerogel Material Science

Not commodity insulation. A chemistry-led material platform with 7 years of dedicated R&D — combining nano-porous aerogel architecture with proprietary Sol-Gel processing.

Aerogel material cross-section showing nano-porous structure at 50-100nm scale
Nano-Porous Architecture
Silica-based aerogel with 50–100 nm nano-cell diameters. Air molecules are physically constrained, limiting convection and conduction. Contains >90% air by volume — one of the lightest solid materials known.
Proprietary Sol-Gel Process
Our production method is designed completely differently from traditional approaches. Focus: easily derive nano-products from various raw material types. 7 years of R&D, thousands of lab experiments, refined to industrial scale.
Multi-Material Platform
Beyond silica aerogel: our R&D lab also produces Polymer Aerogel, Metal Oxide Aerogel, Carbon Aerogel, and Cellulose Aerogel — enabling next-generation materials for emerging applications.
Flexible Composite Engineering
Glass wool or ceramic wool reinforcement enables felt from standard (650°C) to extreme (1300°C) temperature variants. Custom multilayer composites designed for specific application requirements.
R&D approach: We don't sell a single product SKU. We engineer application-specific aerogel solutions — from felt thickness and reinforcement type to granule particle size and transparency level.
Material Comparison

How Levron Aerogel Compares
to Conventional Alternatives

Real test data. In a controlled 1000°C flame test, 2cm Levron Felt outlasted 5cm stone wool + 4cm glass wool combined.

Property Stone Wool Glass Wool Standard Aerogel Levron Aerogel
Thermal Conductivity 0.035–0.045 W/m·K 0.032–0.044 W/m·K 0.018–0.025 W/m·K 0.012–0.016 W/m·K
Max Temperature 500–700°C 400–500°C 600–900°C Up to 1300°C
Water Resistance Poor — loses efficiency Poor — absorbs moisture Moderate 165° super hydrophobic
Fire Test (1000°C) 5cm fails at 9 min 4cm fails at 9 min Variable 2cm — test stopped
Thickness for Equal R 6 cm 5–6 cm 2–3 cm ~2 cm
Expected Lifetime 10–15 years 10–15 years 15–20 years 20+ years
See It In Action

Levron Aerogel —
Performance You Can See

Watch how Levron Aerogel performs under real conditions — fire resistance, thermal management, and structural integrity demonstrated in practice.

Levron Aerogel — product demonstration video
Official Film Levron Aerogel · Material Performance Showcase
Manufacturing & R&D

7 Years of R&D
14,000 m² Integrated Facility

Levron Aerogel is the result of 7 years of dedicated research and development. Starting from thousands of laboratory experiments to a fully integrated 14,000 m² (108,000 ft²) industrial facility — our production system is designed completely differently from traditional manufacturing methods.

Proprietary Sol-Gel Process

Production method focused on easily deriving nano-products from various raw material types

Multi-Aerogel R&D Lab

Silica, Polymer, Metal Oxide, Carbon, and Cellulose Aerogel capabilities

Lab to Production

From R&D samples to volume manufacturing within our integrated facility

OEM Collaboration

Custom solutions co-developed with OEMs, system integrators, and end users

100% Domestic Production
14,000 m² Facility
Partnership-Ready
Levron Aerogel integrated 14,000 m² manufacturing facility and R&D laboratory
Strategic Opportunity

A Strategic Material Platform
for the Energy Transition

7 years of R&D maturity, integrated manufacturing, and cross-industry applications — positioned at the intersection of sustainable energy, advanced materials, and global safety standards.

📈

Growing Market Need

EV battery safety requirements are tightening globally. Petrochemical, construction, and aerospace demand premium thermal solutions. We serve all of them.

🔬

7 Years R&D Maturity

From thousands of lab experiments to industrial-scale production. Multi-aerogel platform (Silica, Polymer, Metal Oxide, Carbon, Cellulose) provides diversification.

🌐

Cross-Industry Platform

Core technology serves EV, petrochemical, construction, automotive, aerospace, cryogenic, textile, and defense markets — multiple revenue paths.

🏗️

14,000 m² Production

Integrated industrial facility already operational. Not a lab curiosity — a production-ready material platform with proven scalability.

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Resources

Technical Documentation
& Support

Access detailed technical data, MSDS documents, and schedule a consultation with our engineering team.

Technical Datasheet — Felt

Full specifications for Levron Aerogel Felt: thermal conductivity, temperature range, dimensions, and application guidance.

Download PDF →

Technical Datasheet — Granules

Full specifications for Levron Aerogel Granules: particle size, transparency, sound insulation, and thermal properties.

Download PDF →

MSDS Safety Document

Material Safety Data Sheet — human and environment friendly. Levron Aerogel is eco-safe and non-toxic.

Download MSDS →

Technical Consultation

Schedule a one-on-one conversation with our materials engineering team to discuss your application.

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Get Started

Ready to Explore
Levron Aerogel Solutions?

Whether you're an engineer evaluating materials, a procurement team sourcing solutions, or an investor exploring opportunities — we're ready to talk.

For Engineers

Talk to Our Technical Team

Discuss your thermal management challenge with our materials engineers. Get technical answers fast.

Talk to an Engineer
For Procurement

Get a Quote for Your Program

Request pricing, lead times, and volume capabilities for your specific application requirements.

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For Strategic Partners

Explore a Pilot Project

Start with a focused evaluation — from material sampling to co-development of custom solutions.

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For Investors

Discuss Strategic Opportunities

Learn about our technology platform, market position, and growth trajectory.

Investor Inquiry