The Most Interesting Low Carbon Biobased Products in 2025

The transition to biobased materials is more than just an industry trend — it is a crucial step toward reducing carbon emissions and achieving global sustainability goals. Each of the products highlighted showcases the potential of renewable resources to replace conventional high-emission materials without compromising performance, durability, or aesthetics. By integrating recycled plastics, bio-resins, biogas energy, and even microbial processes, these innovations redefine how materials are produced and used across construction, coatings, and design applications.

Beyond their individual environmental benefits, these biobased solutions contribute to broader systemic change. They promote circular economy principles by reducing reliance on virgin materials, support renewable energy integration, and enhance the long-term energy efficiency of buildings and infrastructure. As regulations tighten and consumer demand for sustainable alternatives rises, the adoption of low-carbon biobased materials will continue to grow.

In this article and curated collection, we explore nine innovative low-carbon biobased products, detailing their sustainability performance, advantages, and use cases.

Overview

Bio-SIP™ (Bio-based Structural Insulated Panels) by Bio-Sip are designed as alternatives to conventional structural insulated panels. They are made from recycled plastic and bio-based materials, offering high insulation performance while reducing environmental impact.

Sustainability Performance

By integrating recycled plastics and bio-based resources, Bio-SIP™ minimizes reliance on virgin materials and lowers embodied carbon. These panels enhance the energy efficiency of buildings, reducing operational emissions over time.

Advantages

• Incorporates recycled plastics, reducing plastic waste.
• Improves thermal insulation for greater energy efficiency.
• Lightweight and easy to install.
• Contributes to circular economy goals.

Use Cases

• Energy-efficient residential and commercial buildings.
• Prefabricated modular construction.

🔗 View on 2050 Materials

Overview

Rose Bricks by Randers Tegl A/S are manufactured using biogas instead of fossil fuels. They retain the same durability and aesthetics as traditional bricks while significantly lowering emissions.

Sustainability Performance

By replacing fossil fuels with biogas in the firing process, these bricks reduce CO₂ emissions without compromising structural integrity. The use of locally sourced materials further enhances their sustainability profile.

Advantages

• Fired using biogas, reducing carbon emissions.
• Maintains the strength and longevity of conventional bricks.
• Suitable for a variety of masonry applications.

Use Cases

• Low-carbon masonry in residential and commercial buildings.
• Infrastructure projects.
• Restoration projects requiring traditional aesthetics with modern sustainability benefits.

🔗 View on 2050 Materials

Overview

Yellow Bricks are another biogas-fired masonry solution from Randers Tegl A/S. They offer a traditional yellow brick aesthetic while significantly reducing carbon emissions during production.

Sustainability Performance

The use of biogas instead of fossil fuels in kiln-firing results in a lower-carbon alternative to conventional bricks, making them ideal for low-carbon construction.

Advantages

• Reduces embodied carbon through biogas energy use.
• Retains durability and strength of standard bricks.
• Offers the aesthetic appeal of traditional yellow bricks.

Use Cases

• Low-carbon housing projects.
• Commercial and institutional buildings.
• Restoration and heritage projects requiring authentic brick materials.

🔗 View on 2050 Materials

Overview

SH-BIO SERIES by Daejin Co., Ltd is a urethane-based paint incorporating bio-based acrylic resins. It provides a high-luminance finish while reducing reliance on petroleum-based components.

Sustainability Performance

The use of bio-based materials in this paint formulation reduces fossil fuel dependency and lowers the carbon footprint of coatings. Additionally, its durability reduces the need for frequent repainting, leading to long-term environmental benefits.

Advantages

• Uses bio-based raw materials instead of petroleum-derived ingredients.
• Provides strong adhesion and long-lasting durability.
• Offers a premium finish with enhanced color retention.

Use Cases

• Architectural and interior coatings.
• Industrial applications requiring durable finishes.
• Surfaces demanding enhanced aesthetics and longevity.

🔗 View on 2050 Materials

Overview

BioBasedTiles® by FRONT creates cement-free tiles, using microorganisms to bind materials together. This eliminates the need for traditional cement kilns, which are a major source of CO₂ emissions.

Sustainability Performance

By removing cement from the production process, these tiles drastically lower carbon emissions compared to traditional cement-based alternatives. The biomineralization process used in their manufacture is energy-efficient.

Advantages

• Avoids CO₂ emissions associated with cement production.
• Energy-efficient and durable.
• Available in various aesthetic finishes.

Use Cases

• Low-carbon flooring and wall cladding.
• Interior design projects.
• Commercial and residential applications requiring high-durability tiles.

🔗 View on 2050 Materials

Overview

NABASCO® 8010 by NPSP BV is a biobased composite tile made with natural fibers and bio-resin, providing an alternative to petroleum-based composite materials.

Sustainability Performance

By using bio-resin instead of fossil fuel-based resins, this material achieves a significant reduction in embodied carbon. Its European-sourced materials further contribute to its sustainability profile.

Advantages

• Low-carbon alternative to traditional composites.
• High durability and UV resistance.
• Suitable for both indoor and outdoor applications.

Use Cases

• Decorative panels and furniture.
• Architectural elements with sustainable properties.
• Outdoor installations requiring weather-resistant materials.

🔗 View on 2050 Materials

Overview

Biobased Quattro by Copperant is a plant-based priming paint formulated to provide long-lasting protection for wood surfaces while enhancing sustainability in construction.

Sustainability Performance

Made with bio-based binders, this primer reduces reliance on fossil fuel-derived materials and supports low-carbon construction practices.

Advantages

• High opacity and excellent coverage.
• Improves durability of painted surfaces.
• Made with natural materials to reduce environmental impact.

Use Cases

• Wood surface preparation in low carbon building projects.
• Interior and exterior applications.

🔗 View on 2050 Materials

Overview

Pura Biobased Multiprimer by Copperant is a universal primer with excellent adhesion properties, formulated using plant-based binding agents.

Sustainability Performance

With its bio-based formulation and Ecolabel certification, this primer significantly reduces the environmental impact of coatings.

Advantages

• Strong adhesion on various surfaces.
• Suitable for indoor and outdoor use.
• Ecolabel-certified for sustainability.

Use Cases

• Surface preparation for wood, steel, stone, and plastic.
• Low carbon building and renovation projects.

🔗 View on 2050 Materials

Overview

Biobased PU Resilient by Patcraft is a polyurethane-based flooring solution that integrates bio-based materials to reduce its carbon footprint while maintaining durability and comfort.

Sustainability Performance

By replacing fossil fuel-based polyurethane with bio-based alternatives, this flooring solution significantly lowers emissions. It has multiple sustainability certifications, ensuring high environmental standards.

Advantages

• Uses bio-based polyurethane for lower emissions.
• Durable, comfortable, and high-performing.
• Certified under leading sustainability programs.

Use Cases

• Low-carbon interior flooring solutions.
• Commercial and residential applications.
• High-traffic areas requiring durable flooring.

🔗 View on 2050 Materials

By integrating these biobased materials into projects, industries can significantly lower their carbon footprint while maintaining high-performance standards. Each product represents a step toward a more sustainable built environment.

Biobased materials are becoming essential in reducing carbon emissions across industries, particularly in construction and manufacturing. These materials, derived from renewable resources, significantly lower the environmental impact of traditional materials by reducing reliance on fossil fuels and cutting embodied carbon. By integrating biobased alternatives, companies contribute to global climate targets while maintaining high-performance standards.

Looking ahead, ongoing research and technological advancements will further refine these materials, making them even more competitive with traditional options. Manufacturers, designers, and builders who embrace biobased innovations today will be at the forefront of a more sustainable, climate-conscious future. By prioritizing these alternatives which we curated in a collection, industries can significantly reduce their environmental impact and help accelerate the shift toward a low-carbon built environment.