Converting plastic waste into high-value products

Reduce plastic waste pollution with Nanomatics

plastic waste pollution problem

Plastic waste pollution

More than 90% of plastics are non-recyclable due to contamination and difficulties of processing. It is also not profitable to recycle plastics because the value of products is too low to cover the process costs. As a result, every year millions of tonnes of plastics end up in incinerators, landfills or pollute our environment.

Our mission

Enable more recycling and create positive sustainability impact using advanced thermal technologies.

Solution for plastic waste

An innovative thermal process that goes beyond conventional chemical recycling into oil. The process transforms plastic waste into products with higher value, such as hydrogen and solid carbon.

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The technology is suitable for mixed and contaminated plastics, including post-consumer plastics and marine plastic litter. The technology supports circularity as the products from plastic waste displace those made from newly mined resources. Hydrogen produced by the process is a strategic fuel for the upcoming energy transition needed to achieve net zero targets. Solid carbon containing in plastics is converted into carbon nanotubes and/or carbon black. Both carbon types are specialty chemicals used as additives in batteries, plastics and coatings to enhance material conductivity, durability and strength.

Thermal process for upcycling mixed contaminated plastic waste. The process consists of three main parts, such as thermal reactor, chemical vapor deposition and/or thermolysis reactor and gas storage unit. The main products of the process are solid carbon in the form of carbon nanotubes and/or carbon black and hydrogen gas.

Team expertise

The technology draws upon extensive research and development in the fields of thermal engineering, waste management, and circular economy solutions, cultivated over years of dedicated innovation.

Robust process

The process boasts notable resilience against impurities, bolstered by tailored conditions. This unique combination ensures adaptability across a diverse spectrum of feedstocks.

High-value outputs

The production of solid carbon and low-carbon hydrogen not only makes plastic waste recycling economically feasible but also positions it as a strong contender among other advanced technologies.

Products from plastic waste

Join our mission for a world free from plastic waste