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10 Biomimetic Innovations Poised to Tackle Countless Climate, Biodiversity, Business Challenges

The Biomimicry Institute’s 2022 cohort of Ray of Hope Prize finalists are leveraging nature’s genius to revolutionize textiles, wind turbines, waste remediation, building materials, cleaning products, sunscreen, plastics and more.

From inventing higher-performing and more sustainable renewable energy systems to reducing food waste to solving the plastic waste problem, the 2022 Ray of Hope Prize® finalists offer inspiring solutions through their use of biomimicry (also referred to as nature-inspired or bioinspired design). Selected from hundreds of impressive submissions from companies from around the world, the Biomimicry Institute is proud to announce the top 10 finalists selected to participate in this transformational program designed to help startups cross a critical threshold in scaling their sustainable solutions. The 10-week virtual accelerator program culminates in the chance to receive the $100,000 grand prize and additional equity-free funding.

Previous Ray of Hope Prize finalists include breakthrough innovators such as Spintex Engineering, ECOncrete, Biohm, Werewool, Spotless Materials, Impossible Materials and Nucleário — all have gone on to raise millions more in seed funding and have made inspiring impacts to the industries for which they’ve designed solutions.

“Every year, we see more and more breakthrough, nature-inspired companies apply to the Ray of Hope Prize — indicating that this field is growing to meet the climate and biodiversity challenges facing our planet,” said Jared Yarnall-Schane, Innovation Director at the Institute. “Among them are companies that are creating brand new chemicals and materials that are in tune with those that already exist in nature, and companies that are creating products to make critical infrastructure more efficient and sustainable.”

The 2022 finalists

Amphibio United Kingdom

Amphibio has developed a recyclable and PFC-free alternative to traditional waterproof, breathable textiles for the outdoor and sportswear industry. This is accomplished via a unique manufacturing process and PFC-free, superhydrophobic yarn called Amphitex™ — which was inspired by water- and liquid-repellent nanostructures found in nature. Amphibio’s textiles are made from one source material and do not need any chemical treatments, mitigating two of the biggest barriers of sustainable textile production today.

Biome Renewables Canada

Circularity by Design: How to Influence Sustainable Consumer Behaviors

Join us Thursday, December 5, at 1pm ET for a free webinar on making circular behaviors the easy choice! Nudge & behavioral design expert Sille Krukow will explore the power of Consumer Behavior Design to drive circular decision-making and encourage behaviors including recycling and using take-back services. She will share key insights on consumer psychology, behavior design related to in-store and on-pack experiences, and how small changes in the environment can help make it easy for consumers to choose circularity.

Biome Renewables is an engineering and design firm that learns from nature to create higher-performing and more sustainable renewable energy systems. Their first product, the PowerCone®, is a wind turbine retrofit inspired by the aerodynamics of a falling maple seed, which moves through the air with a pattern of least resistance. The PowerCone, which is a second smaller rotor bolted to the hub of existing wind turbines, can increase the annual energy production of a wind turbine while minimizing the amount of loads and vibrations experienced by the turbine. Currently, Biome is bringing its second technology to market — a serrations technology that mimics an owl’s wing, to deliver quieter wind turbine performance. Recent wind tunnel testing in Germany revealed up to 4 decibels in noise reduction.

Fusion Bionic GmbH Germany

Fusion Bionic creates laser-generated surface textures inspired by textures found in nature, opening up new possibilities for functionalized surfaces. Its Direct Laser Interference Patterning (DLIP) can create micro- and nano-scale surface textures on which, for example, ice does not stick (anti-icing for e.g. aviation) and glass surfaces do not reflect (ex: anti-reflective smartphone screens); and implants that are better accepted by the body (biocompatible, antibacterial). All of these surface textures replace ecologically harmful processes, such as chemical de-icing, sandblasting or etching, while meeting the demand of increased product performance via industrial-scale surface finishing.

GreenPod Labs India

India is the second-largest producer of fruits and vegetables; but ~40 percent of fresh produce is lost before it reaches consumers. GreenPod Labs has created bio-inspired packaging sachets that release plant-based volatiles to activate the built-in defense mechanism within specific fruits or vegetables, in order to slow down the ripening rate and minimize microbial growth. By understanding crop physiology and spoilage types, GreenPod Labs has created the right formulation for produce to fight against biotic and abiotic stresses at ambient temperature, lessening the need for cold storage and cold supply chains.

Intropic Materials United States

Intropic Materials is addressing plastic waste from the inside out by embedding enzymes directly into plastics to aid and significantly speed up natural degradation. These plastics rapidly and completely break down at end of use into biodegradable or chemically recyclable small molecules without producing microplastics, in accessible conditions such as warm water baths or compost. This is enabled by Intropic’s proprietary enzyme-stabilization platform, bringing together natural and synthetic materials designed to function similarly to chaperone proteins — which protect and preserve enzymatic structure and function in foreign environments.

Metavoxel United States

Low-density, high-performance cellular materials such as bone, bamboo and marine sponges are nature’s way of doing more with less, providing structural efficiency and multifunctionality across scale. The key is in the specific, internal, cellular geometry. Metavoxel recreates these cellular geometries to produce lightweight and strong metamaterials that can improve structural efficiency and reduce the cost and environmental footprint of the built environment. The goal for Metavoxel is to do more with less — to conserve energy and material resources while accomplishing specific mechanical and structural objectives.

Mycocycle United States

Mycocycle works with nature’s master decomposers, fungi, to break down complex waste streams such as construction materials and asphalt. Using a systems-level biomimetic approach, Mycocycle’s process enables a circular industrial supply chain — becoming ever more important as landfills reach capacity. To accomplish this, Mycocycle first optimizes fungi in a lab to decompose specific waste streams. Then, they remediate onsite waste in collaboration with manufacturers, recyclers and waste-management companies. The resulting by-product can then be used to create new products.

Sóliome United States

Sunscreen has become a part of the daily routine for millions of people; however, the current market choices often contain toxic chemicals or are damaging to sensitive organisms such as coral. Sóliome has created a novel sunscreen inspired by compounds that naturally concentrate in the lens of the human eye to absorb UVA and UVB radiation. By isolating and stabilizing this molecule, Sóliome has created a safe, affordable, environmentally friendly sunscreen.

Strong by Form Chile

In nature, trees can withstand high wind and storm stresses by growing the right form, density and fiber orientations — which is how natural wood can achieve a strength stronger than steel. By combining material science with the latest digital optimization tools, Strong by Form has developed Woodflow — a fabrication technology that mimics these natural form functions. The proprietary additive manufacturing process can create high-performance, ultralight, timber-based structural composites for the construction and mobility industries at a fraction of their conventional environmental impact.

Sudoc United States

Sudoc creates chemical cleaning products that emulate how enzymes work in the human liver to efficiently oxidize harmful and toxic micropollutants. By closely mimicking the mechanism of these peroxidase liver enzymes, Sudoc’s innovative chemistry platform can reduce, replace and eliminate toxic chemicals in a wide range of applications. The company’s first product, dot, outperforms traditional mold-stain removal products with 1/30th the chemical content; Sudoc is now developing a range of other household and commercial cleaning products, as well as solutions for the treatment of wastewater and waste pharmaceuticals. By creating chemistry in balance with nature, Sudoc is helping to address a massive increase in global chemical toxicity that is contributing to the greater incidence of infertility, diseases such as cancer, and impacted developmental behaviors.

The 10 finalists will now begin the 10-week virtual program and deliver their pitches to an expert judging panel in November. During this program, the Biomimicry Institute will help these startups scale more quickly in order to compete in multibillion-dollar, extractive industries; avoid the common push to produce products cheaply, leading to further (unintentional) harm (such as the use of toxic chemicals); and help them to easily communicate their science and benefits. The program concludes with an immersive retreat in the California Redwoods for participants to reconnect with the natural world and form bonds with their fellow bioinspired innovators.

“The 10 companies selected to participate in this year’s Ray of Hope Prize give me hope for a more vibrant, sustainable, biodiverse world,” Yarnall-Schane says. “I look forward to supporting these brilliant entrepreneurs and scientists!”

For more information about the Ray of Hope Prize and how to support the Institute’s nature-inspired design innovation initiative, visit Biomimicry.org/rayofhopeprize.

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