Wall Materials

Transform your walls into carbon sinks with our innovative wall systems that actively remove CO2 from the atmosphere.

Key Benefits

Maximum carbon absorption

Thermal insulation

Moisture regulation

Customizable finishes

Available Materials

In Stock

CO2 Absorption

−15.46 kg CO₂/m²

Hempcrete

IsoHemp EPD

95%

Revolutionary bio-composite made from hemp hurds and lime binder that actively sequesters carbon while providing excellent insulation and breathability.

Thermal Conductivity

0.06-0.12 W/mK

Density

300 kg/m³

Compressive Strength

0.4-1.5 MPa

Fire Resistance

Class A

Key Features

Net carbon sequestration of −16.0 kg CO₂/m² lifetime

Non-structural breathable wall system

Naturally pest and mold resistant

In Stock

CO2 Absorption

−74.7 kg CO₂/m²

Cross-Laminated Timber (CLT)

Stora Enso EPD

92%

Engineered wood product made from layers of lumber boards stacked crosswise and bonded with adhesive, providing exceptional carbon storage and structural capabilities.

Thermal Conductivity

0.12-0.16 W/mK

Density

500 kg/m³

Compressive Strength

24-30 MPa

Fire Resistance

Class A

Key Features

Exceptional biogenic carbon storage of −76.2 kg CO₂/m²

High structural strength and dimensional stability

Predictable fire behaviour with char formation

Limited Stock

CO2 Absorption

−5.98 kg CO₂/m²

Mycelium Composite Panel

Hy-Fi Project Research

88%

Innovative bio-material grown from mushroom roots (mycelium) and organic substrates, creating lightweight panels with natural carbon sequestration properties and unique acoustic performance.

Thermal Conductivity

0.05-0.08 W/mK

Density

150 kg/m³

Compressive Strength

0.3-0.8 MPa

Fire Resistance

Class A

Key Features

Natural carbon sequestration of −6.0 kg CO₂/m²

Exceptional acoustic absorption properties

Biodegradable and compostable material

Special Order

CO2 Absorption

−20 kg CO₂/m²/year

Living Green Wall

Literature Review Data

96%

Revolutionary biophilic wall system featuring live plants that continuously absorb CO2 through photosynthesis, creating a natural air purification system while enhancing indoor environments with living vegetation.

Thermal Conductivity

N/A (Living system)

Density

25-40 kg/m²

Compressive Strength

N/A (Non-structural)

Fire Resistance

Class A

Key Features

Ongoing carbon absorption of −20 kg CO₂/m²/year

Continuous air purification through photosynthesis

Natural humidity regulation and oxygen production

Seasonal Stock

CO2 Absorption

−31.86 kg CO₂/m²

Straw-Bale

Literature Review Data

91%

Traditional building material made from compressed agricultural straw that provides exceptional carbon sequestration and thermal mass. Ideal for thick wall construction with natural insulation properties.

Thermal Conductivity

0.05-0.09 W/mK

Density

90-130 kg/m³

Compressive Strength

0.6-1.2 MPa

Fire Resistance

Class A

Key Features

Exceptional carbon sequestration of −32.0 kg CO₂/m² (Literature averages)

Outstanding thermal mass and insulation properties

Natural fire resistance when properly plastered

Limited Stock

CO2 Absorption

−5.98 kg CO₂/m²

Mycelium Composite Panel

Hy-Fi Project Research

88%

Innovative bio-material grown from mushroom roots (mycelium) and organic substrates, creating lightweight panels with natural carbon sequestration properties and unique acoustic performance.

Thermal Conductivity

0.05-0.08 W/mK

Density

150 kg/m³

Compressive Strength

0.3-0.8 MPa

Fire Resistance

Class A

Key Features

Natural carbon sequestration of −6.0 kg CO₂/m²

Exceptional acoustic absorption properties

Biodegradable and compostable material

In Stock

CO2 Absorption

−1.52 kg CO₂/m²

Kenaf Fibre Panels

Literature Review Data

87%

Natural plant fiber panels made from kenaf stems that provide effective carbon sequestration with excellent acoustic properties. These lightweight panels offer superior sound absorption for interior applications.

Thermal Conductivity

0.038-0.045 W/mK

Density

240-300 kg/m³

Compressive Strength

2.5-4.0 MPa

Fire Resistance

Class A

Key Features

Net carbon sequestration of −2.0 kg CO₂/m² (Literature data)

Exceptional acoustic absorption coefficient of 0.85-0.95

Lightweight construction with high strength-to-weight ratio

In Stock

CO2 Absorption

−1.52 kg CO₂/m²

Kenaf Fibre Panels

Literature Review Data

87%

Thermal Conductivity

0.038-0.045 W/mK

Density

240-300 kg/m³

Compressive Strength

2.5-4.0 MPa

Fire Resistance

Class A

Key Features

Net carbon sequestration of −2.0 kg CO₂/m² (Literature data)

Exceptional acoustic absorption coefficient of 0.85-0.95

Lightweight construction with high strength-to-weight ratio

In Stock

CO2 Absorption

−2.11 kg CO₂/m²

Lime Plaster

Lab Data Research

85%

Biochar-enhanced lime plaster that provides natural carbon sequestration while delivering a beautiful matte finish. This traditional material enhanced with modern technology offers excellent breathability and natural antimicrobial properties.

Thermal Conductivity

0.70-0.90 W/mK

Density

1500-1800 kg/m³

Compressive Strength

3.0-5.0 MPa

Fire Resistance

Class A

Key Features

Net carbon sequestration of −2.25 kg CO₂/m² (Lab data)

Biochar enhancement for improved carbon capture

Natural breathability and humidity regulation

Limited Stock

CO2 Absorption

−0.64 kg CO₂/m²

Biochar

Pilot Data Research

82%

Advanced biochar wall boards made from pyrolyzed organic materials that provide effective carbon sequestration. These versatile panels offer excellent fire resistance and can be used for both wall and ceiling applications.

Thermal Conductivity

0.12-0.18 W/mK

Density

900-1200 kg/m³

Compressive Strength

8.0-12.0 MPa

Fire Resistance

Class A

Key Features

Net carbon sequestration of −0.96 kg CO₂/m² (Pilot data)

Excellent fire resistance and thermal stability

High porosity for superior sound absorption

In Stock

CO2 Absorption

−1.35 kg CO₂/m²

Wood-Wool Acoustic Panels

EPD Averages Data

86%

Innovative wood-wool panels featuring textured surfaces with mineral binder carbonation for enhanced carbon sequestration. These panels provide superior acoustic performance while actively removing CO2 from the atmosphere.

Thermal Conductivity

0.08-0.12 W/mK

Density

400-600 kg/m³

Compressive Strength

3.5-6.0 MPa

Fire Resistance

Class A

Key Features

Net carbon sequestration of −2.25 kg CO₂/m² (EPD averages)

Superior acoustic absorption with textured surface design

Mineral binder carbonation for enhanced CO2 capture

Research Phase

CO2 Absorption

−0.32 kg CO₂/m²

Biopolymer Tiles

Pilot Study Data

78%

Innovative biopolymer tiles made from renewable organic polymers that provide carbon sequestration in decorative applications. These early-stage materials offer unique aesthetic possibilities while contributing to atmospheric CO2 reduction.

Thermal Conductivity

0.15-0.25 W/mK

Density

1200-1400 kg/m³

Compressive Strength

5.0-8.0 MPa

Fire Resistance

Class A

Key Features

Net carbon sequestration of −0.36 kg CO₂/m² (Pilot study data)

Renewable biopolymer construction from organic sources

Ultra-thin profile ideal for decorative applications

Limited Research Phase

CO2 Absorption

−4.04 kg CO₂/m²

Algae-based Brick

Research Values Data

89%

Revolutionary algae-based bricks created from living microorganisms that provide exceptional carbon sequestration through biological processes. This early-stage technology represents the future of sustainable masonry with active CO2 absorption.

Thermal Conductivity

0.8-1.2 W/mK

Density

1600-1800 kg/m³

Compressive Strength

15-25 MPa

Fire Resistance

Class A

Key Features

Exceptional carbon sequestration of −5.0 kg CO₂/m² (Research values)

Living algae organisms for continuous CO2 absorption

Self-healing properties through biological processes