System Development/Field Test/ Commercialization

Developed by Pivot Bio, a sustainable agricultural company that uses microbes to deliver nitrogen to plants as an alternative to synthetic fertilizers. Pivot Bio’s technology pinpoints a microbe natural to a crop’s specific microbiome with the genetic code for nitrogen fixation. All genetic changes to the microbe are within its genome and applied during the planting phase, where they bind to the root and continuously fix nitrogen throughout the growing season.

Ambercycle specializes in recycling polyester from end-of-life textiles, aiming to create a closed-loop system where polyester can be continuously regenerated and reused. Cycora® is made by breaking polyester textiles into their essential components into a series of reactors. Once separated into base materials, additives such as dyes and finishes are removed further to purify the raw material at the molecular level. The purified regenerated PET is reconstructed into virgin-grade pellets and can be seamlessly integrated into existing supply chains.

Low-cost alternative to conventional petroleum-derived insulation developed by Thermulon. The process uses silica-based aerogels that are lightweight, possess exceptional thermal insulation properties, and feature inorganic backbones that limit combustibility, making them safer for use in high-temperature environments. Their versatility allows them to be used in a variety of applications, including insulating batts, panels, and other products.

Low-cost catalytic pathway to 1,5-PDO that produces no harmful byproducts from agricultural products developed by Pyran. Provides a green alternative to petroleum-based 4-and 6 carbon diols that can enhance performance by increasing polymer heat, water, oil, and weather resistance, thermal transition temperature and crystallization in half the time, and liquid phase processability. Pyran’s 1,5-PDO can be considered a suitable replacement for 1,6-hexanediol in resins used for coatings and demonstrates slightly better viscosity reduction than HHDA in some applications.

Plant-based materials developed by Natural Fiber Welding (NFW) that eliminates the use of synthetic toxins or plastics at any stage of manufacturing. Natural ingredients such as natural rubber, recycled cotton, recycled Mirum®, hemp, coconut husks, structural colorant, and cork are shaped and molded at the molecular level previously only achieved with synthetic materials to create products for fashion, footwear, accessories, and automotive industries. NFW currently offers four bio-based, low-carbon materials.

Automated recycling process that removes crucial ingredients to produce new EV batteries. In this process, robots remove modules and cells from discharged batteries. Materials are crushed, shredded, and separated into fractions of metals and plastics.

Digital automatization of chemistry to make chemical synthesis easy and instant. Chemify uses a programming language to employ the world’s largest database of validated chemical reactions. By implementing the full digital chemistry stack into their automated robotic synthesis cluster facility, Chemify can transform chemical code into real molecules on demand and at scale. Artificial intelligence is also used to discover and design novel molecules rapidly. Digitizing and automating chemistry helps prevent exposure to toxic chemicals in the workplace and waste generation.

Designs high-performance materials and ingredients that are fully renewable and bio-based. WING® platform enables biology and design labs to develop, test, and commercialize products to reduce global dependence on fossil fuels and other unsustainable oil sources. Checkerspot, the developer of the WING® platform, offers products that integrate molecular foundry, chemistry, material science, and fabrication technology to develop polyurethanes and textile finish materials derived by fermentation of biobased oils, enabling industries to access materials at a molecular level. 

Replicates the natural processes of plants in smart cell factories to create a variety of products more sustainably and efficiently. Manus Bio developed an advanced technology designed to recreate plant processes in microorganisms to produce natural ingredients through fermentation. The AI-augmented computational protein design platform, MLEAP®, enables users to discover, develop, and optimize enzymes for different applications.

Synthetic pheromones for mating disruption for crop protection ––  a more sustainable and safer alternative to protect food supplies without toxic residues. By saturating an environment with synthesized artificial sex pheromones, reproduction can be drastically reduced by preventing male insects from finding female insects. Unlike traditional pesticides, synthesized pheromones are highly species-specific, making them safe for non-target insects.