Highly Customizable
The enzymatic process enables tailored polymer properties, which can then be further modified with a variety of functional groups– expanding the material design space to be even more flexible.
THE BIO-REVOLUTION
What if we could build a better biomaterial—with premium performance AND sustainability benefits?
These are challenging times—but also exciting ones. Every day we’re told we are closer to environmental disaster. But every day also brings new innovation. Scientific discovery. And an opportunity to change the course.
In home and personal care, cleaning and efficacy have taken on greater importance than ever before. And while demand for more sustainable products continues to rise, consumers worry that “eco-friendly” often translates into products that aren’t as effective as traditional ones.
Yet we also know that when we combine nature's resilience and adaptive powers with bioscience innovation, we can create novel solutions that change how people think and act.
And we have.
Meet DEB
Designed Enzymatic Biomaterials™ (DEB)
Over the past decade, IFF Health & Biosciences has developed a technology platform called Designed Enzymatic Biomaterials™, or "DEB". Leveraging deep expertise in biotech research, process development and product commercialization, we can now create polysaccharides from the enzymatic polymerization of simple sugars, which are highly-tailored for a range of applications in home and personal care—and beyond.
This means unique, structurally diverse polysaccharides like those traditionally found in nature can now become available with accuracy, consistency and at scale.
This is the future of biomaterials. This is DEB.
“DEB represents a new way to make polysaccharides at scale—bringing the advantages of petroleum-based polymers together with the sustainability profile of a bio-based material.”
— Simon Herriott, President, Health & Biosciences
How We're Breaking the Trade-off Between Performance and Sustainability:
Unlike fossil-based synthetic polymers, the DEB process allows us to access unique, structurally-diverse polysaccharides—like those found in nature—at scale and under mild process conditions. This provides an unprecedented design space for enhanced performance. Using only plant-based sugars, water, and our favorite biocatalyst—the enzyme—we can now design functional, biobased, biodegradable materials without compromising performance.
Structural Uniformity
The precisely controlled enzymatic process ensures excellent structural uniformity for the DEB materials. This offers high reproducibility and little batch-to-batch variation.
Designed for Biodegradability
Biodegradability is intrinsic to polysaccharide materials. Tailoring the molecular structure allows DEB to meet or exceed required product performance while still meeting biodegradability requirements across application areas.
Making Claims
Claiming Sustainability and Performance
Consumers today demand scientifically-backed claims to demonstrate sustainability, combined with robust, non-compromised performance in cleaning and hygiene.
Synthetic, petroleum-based | Designed Enzymatic Biomaterials | Polysaccharides extracted | |
|---|---|---|---|
Consistent quality |  | | |
Tailored performance | | | |
High purity | | | |
Scalable & reliable supply | | | |
Renewable | | | |
Biodegradable* | | | |
Natural clean label | | | |
INTENTIONAL BIOLOGY
Better biomaterials through biomimicry
Just like a plant uses carbon dioxide, the sun, and nutrients from the soil to grow into a tree, DEB is a process that uses plant-based sugars and enzymes under mild process conditions to create bio-based materials — with the same or better efficiency, purity and material consistency as seen in traditional synthetic polymers, but starting from natural feedstocks.
How it Works
Enzymatic Polymerization
DEB gives rise to a new class of alpha-glucan polysaccharides, from the enzymatic polymerization of glucose from plant-based sugar, that has high purity and consistent quality.
SUSTAINABILITY: THE IMPACT OF DEB
We believe biomaterials are a key element of the bio-revolution; an instrumental part in creating a more sustainable future for generations to come.
From reducing energy consumption and resource use to escalating the drive to a truly circular economy, the DEB platform represents the future of regenerative solutions, and abundant supply of safe and effective products the world needs to thrive.
Scientifically-Backed Sustainability
An extensive Life Cycle Assessment was performed and peer-reviewed following the ISO 14040 and ISO 14041 standards. The results of this LCA validate four key sustainability benefits that sit at the core of the DEB technology platform.
The DEB manufacturing process is carbon-negative.
On a cradle-to-gate basis for manufacturing, the impact on climate change is lower than the carbon sequestration potential of the product; meaning, more CO2 is removed from the atmosphere than is emitted through production.
DEB is derived from plant sugar—but with net land use reduction.
For example: production from EU sugar beet feedstock results in net land use reduction; co-product molasses & beet pulp displace other animal feed stuff derived from lower efficient agricultural land, such as wheat, corn, and soybeans.
DEB low water inputs can lead to net water savings.
Co-products from the sugar mill and DEB process can fulfill some demand for animal feed and starches with typically higher irrigation requirements—reducing actual water consumption. If the co-product is converted to ethanol, overall water consumption is positive, but still comparatively low.
circular solutions
Our goal is to be an important part of the circular economy, one in which products are made to be made again, and the process itself is responsible and restorative. DEB is our response, giving industries a viable alternative to fossil-based technologies.
Our Journey
The Designed Enzymatic Biomaterials technology platform represents over a decade of research and development. But this is just the beginning: DEB technology is how 21st century materials will be made. Follow our journey here.
Timeline of a transformative technology platform
The Designed Enzymatic Biomaterials technology platform represents over a decade of research and development. But this is just the beginning: DEB technology is how 21st century materials will be made. Follow our journey here.
DEB is more than just an idea. It’s commercial.
In beauty and home care applications, DEB promises both manufacturers and consumers vastly more options to shift to more sustainable products without compromising performance. But it’s our size and scope that uniquely position IFF to scale for global impact. The polymer bio-revolution has begun.
Nuvolve®
Leading the sustainable transformation of industrial markets
AURIST™ AGC
Welcome to the future of hair conditioning
Lyrature™
100% bio-degradable detergents and cleansers
Future Applications
As limitless as our imaginations
“From my perspective, this is the most exciting platform I’ve seen in the last 15 years.”
Wayne Ashton, VP, Home and Personal Care, IFF
NUVOLVE®
Leading the sustainable transformation of industrial markets
Nuvolve® is class of customizable, high-performance biomaterials developed for a wide range of industrial applications, such as the tire and adhesives industry. These products are designed to meet the established polymer grade, industry specifications that are expected from fossil-derived products but are typically not met by the traditional biomaterials available today. Nuvolve® brings world-class science and engineering to the global marketplace, with a focus on partnerships to promote the circular bio-economy.
AURIST™ AGC
The future of hair care
A water-soluble, readily biodegradable conditioning biopolymer, AURIST™ AGC improves both wet and dry combability. AURIST™ AGC combines sustainability and performance benefits to bring hair conditioning to the next level.
“AURIST™ AGC shows the potential of the new DEB platform…to deliver sustainable and high-performance beauty solutions that can truly make a difference in this industry.”
Johan Jansén-Storbacka, Director, Personal Care, IFF
LYRATURE™
The future of clean
The home care industry is at the forefront of performance-driven sustainability. Lyrature is a family of nature-based, customizable, high-performance polymers made from renewable sources of sugar, designed to pursue 100% bio-degradable detergents and cleansers, with cleaning power to match our shared vision for a better, healthier world.
Cleaning polymers, rheology modifiers, emulsion stabilizers and structurants are just some of the key application areas. Yet the potential for Lyrature is limited only by our collective imagination.
FUTURE APPLICATIONS
“As limitless as our imaginations.”
The potential of DEB to transform industries is vast. According to Christian Lenges, Venture Director, Health and Biosciences, IFF, DEB may enable big leaps in performance across many industries where materials have been incrementally optimized for more than 60 years, but which are also inherently better for the planet.
The resulting innovation, he says, will have applications across various industries – in textiles and nonwovens, as well as in sustainable composites.
Media Inquiries
Talk to us about DEB, and its potential to make our world better.
Groundbreaking solutions like DEB will be an instrumental part of making the circular economy a reality.
As a unique business unlike any in the biotech industry, we welcome opportunities to discuss how the Designed Enzymatic Biomaterials technology platform represents a critical step forward, establishing a regenerative supply chain that doesn’t compromise—on impact or performance.
Groundbreaking solutions like DEB will be an instrumental part of making the circular economy a reality.
As a unique business unlike any in the biotech industry, we welcome opportunities to discuss how the Designed Enzymatic Biomaterials technology platform represents a critical step forward, establishing a regenerative supply chain that doesn’t compromise—on impact or performance.
* Depending on the industry and application-specific DEB based product formulation and certification requirements
