Accelerate Enzyme Discovery and Optimization with custom AI Tools
AI-Driven Enzyme Engineering for Plastics & Polymers
The plastics and polymers industry is under unprecedented pressure to enable recycling, eliminate persistent waste, and transition to circular materials — without sacrificing performance or economics.
Neoncorte Bio designs AI-engineered enzymes that break down, transform, or synthesize polymers with precision, efficiency, and industrial viability.
We partner with polymer producers, recyclers, and materials innovators to turn plastic waste into feedstock and sustainability into scalable reality.
Why Enzymes Are Critical for the Future of Plastics
AI-driven enzyme engineering makes these biological solutions industrially competitive.
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Traditional plastic recycling and processing face major limitations:
- quality loss in mechanical recycling
- harsh chemical depolymerization conditions
- inability to remove additives and contaminants
- limited routes to truly circular polymers
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Enzymes offer:
- molecular-level selectivity
- mild operating conditions
- compatibility with existing infrastructure
Core Plastics & Polymers Subsegments We Support
PET is one of the most widely used plastics — and one of the most promising for enzymatic recycling.
We design enzymes that:
We design enzymes that:
- depolymerize PET into monomers (TPA, EG)
- operate at higher temperatures and faster rates
- tolerate real-world waste streams
Nylon recycling remains challenging due to its chemical resistance and mixed waste streams.
Our enzyme solutions enable:
Our enzyme solutions enable:
- selective breakdown of nylon polymers
- recovery of high-value monomers
- integration with hybrid recycling processes
Moving beyond recycling requires new routes to bio-derived polymers.
We engineer enzymes for:
We engineer enzymes for:
- enzymatic polymerization
- synthesis of bio-based monomers
- lower-energy polymer production pathways
Plastic additives (plasticizers, dyes, stabilizers) reduce recyclate quality and limit reuse.
We design enzymes that:
We design enzymes that:
- selectively degrade or detach additives
- improve purity of recycled polymers
- enable closed-loop recycling
Why AI-Driven Enzyme Engineering Is a Game Changer
AI-driven enzyme engineering reduces development timelines and de-risks commercialization.
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Polymer applications impose strict requirements:
- high temperatures
- hydrophobic substrates
- mixed and contaminated feedstocks
- economic viability at scale
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Our AI platform learns from sequence-structure-function data to engineer enzymes that:
- remain active under industrial conditions
- deliver consistent performance
- scale efficiently in fermentation
What Neoncorte Bio Delivers
- Plastic depolymerization enzymes
- Polymer synthesis and modification enzymes
- Thermostability and solvent tolerance
- Substrate specificity and reaction speed
- Process compatibility
- Designed for industrial fermentation
- Compatible with CDMO and recycling infrastructure
- NDA-protected projects
- Licensing, co-development, or transfer
- Alignment with circular economy strategies
- Who We Work With?
- Plastic and polymer manufacturers
- Chemical and enzymatic recycling companies
- Waste management and recycling operators
- Consumer goods and packaging innovators
- Materials science and circular economy teams
- Why Partner with Neoncorte Bio?
- AI-first enzyme engineering platform
- Focus on real industrial plastic waste streams
- Complementary to chemical and mechanical recycling
- Built for circular, regulation-driven markets
Frequently Asked Questions (FAQs)
Our solutions leverage advanced artificial intelligence and machine learning to design, optimize, and engineer enzymes tailored to your specific applications. Whether you need enhanced catalytic efficiency, improved stability, or novel enzyme functionalities, our platform streamlines the design process, reduces experimental iterations, and accelerates time-to-market.
Our services are ideal for biotechnology and pharmaceutical companies, industrial manufacturers, academic research labs, and any organization involved in enzyme applications. Industries such as biofuels, food processing, personal care, paper and pulp, and environmental management can all benefit from our AI-driven enzyme engineering tools.
Our process begins with your input data—such as enzyme sequences, structural information, and target reaction profiles. Our proprietary AI algorithms generate a library of enzyme variants and use predictive modeling to evaluate their catalytic activity, stability, and specificity. The top-performing candidates are ranked and provided for further experimental validation, significantly reducing the number of lab iterations needed.
Our platform is versatile and can be applied to a wide range of enzymes including hydrolases, oxidoreductases, transferases, and lyases. We focus on both enhancing the performance of existing enzymes and designing entirely new biocatalysts for applications in industrial processes, therapeutics, and research.
Absolutely. We collaborate with you to tailor our AI models and parameters to meet your project’s unique requirements. This includes integrating your proprietary data, adjusting target properties, and aligning the enzyme design with your process conditions to deliver a highly customized solution.
Our software features robust API support and data export options (e.g., CSV, JSON) that enable seamless integration with Laboratory Information Management Systems (LIMS) and other data analytics pipelines. We also offer comprehensive onboarding, training, and technical support to ensure smooth adoption by your team.
Our models are trained on extensive datasets from scientific literature and experimental data. Continuous feedback from laboratory validations helps refine our predictions. Although our AI predictions are highly reliable, we recommend in vitro or in vivo validation to confirm the performance of the engineered enzymes under your specific conditions.
Yes, we provide collaborative support during the validation phase. Our team can assist in designing proof-of-concept studies, advising on experimental protocols, and interpreting validation results to ensure that the engineered enzymes meet your performance criteria.
Our pricing is flexible and depends on the scope, duration, and level of customization required for your project. We offer subscription-based models for ongoing research and project-based pricing for specific campaigns. Please contact us for a personalized consultation and detailed quote.
Our dedicated customer support team is available throughout your journey—from initial consultation and onboarding to ongoing technical support and regular software updates. We offer multiple support channels including email, phone, live chat, and detailed documentation to ensure your success.
Start a Plastics & Polymers Enzyme Project
Let’s explore how AI-designed enzymes can enable true circular plastics.
Neoncorte Bio
Where AI Meets Biotechnology
Neoncorte Bio is at the forefront of the convergence between artificial intelligence and enzyme engineering. Our team comprises experts in computational biology, bioinformatics, and machine learning, all driven by a mission to accelerate innovation in enzyme design. By leveraging our advanced AI models, we provide unparalleled solutions that enhance efficiency, reduce costs, and push the boundaries of what's possible in enzyme engineering
Proud Member of Leading Global AI Programs
Neoncorte Bio is part of the NVIDIA Inception and Nebius for Startups programs — two of the world’s leading ecosystems for high-performance AI innovation. These partnerships strengthen our ability to deliver next-generation AI-driven protein, enzyme, and aptamer engineering.
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As a member of NVIDIA Inception, Neoncorte Bio gains access to cutting-edge GPU technologies, expert guidance, and a global AI ecosystem that supports companies from prototype to production. The program empowers us to explore new AI opportunities and build high-performance biological design pipelines powered by NVIDIA’s world-class platform. -
Through Nebius for Startups, we gain access to high-performance compute infrastructure optimized for large-scale AI workloads, along with hands-on technical guidance and a strong community of innovative AI companies. Nebius enables us to train and deploy complex biological models more efficiently — accelerating enzyme, protein, and aptamer design while supporting rapid scaling of our R&D pipelines.
Publications
Scientific Publication of Neoncorte Bio Team
- Modification of natural enzymes to introduce new properties and enhance existing ones is a central challenge in bioengineering. This study is focused on the development of Taq polymerase mutants that show enhanced reverse transcriptase (RTase) activity while retaining other desirable properties such as fidelity, 5′-3′ exonuclease activity, effective deoxyuracil incorporation, and tolerance to locked nucleic acid (LNA)-containing substrates.
- The transcriptomic data are being frequently used in the research of biomarker genes of different diseases and biological states. The most common tasks there are the data harmonization and treatment outcome prediction. Both of them can be addressed via the style transfer approach. Either technical factors or any biological details about the samples which we would like to control (gender, biological state, treatment, etc.) can be used as style components.
- List of all Neoncorte Bio publications dedicated to Molecular Biology, Biotechnology, Artificial Intelligence and Artificial Neural Networks, published mostly by Nikolay Russkikh, CEO of Neoncorte Bio
Our Expertise in Action
With extensive experience in AI applications and software engineering tailored to the life sciences, we specialize in solving complex challenges and delivering innovative solutions for our customers. Our work demonstrates a deep understanding of cutting-edge technologies and their application in the real world.
Here are examples of the types of projects we have successfully delivered:
Here are examples of the types of projects we have successfully delivered:
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Automated NGS Data Analysis:
Designed a production-grade solution for the automated processing, annotation, and analysis of Next-Generation Sequencing (NGS) data. -
Single-Cell Data Integration:
Built state-of-the-art tools for integrating multimodal single-cell data, achieving recognition for technical excellence. -
Metagenomic Classification Algorithms:
Developed advanced methods for classifying sequencing reads in metagenomics research. -
High-Throughput Image Processing Pipelines:
Engineered an efficient pipeline to process millions of sequencing images with exceptional accuracy. -
Cell Counting via AI:
Created a computer vision solution for precise cell counting in microphotography images, streamlining data analysis.
Get in touch with our team
Phone: +1-503-754-3958
Email: contact@neoncorte.com
Email: contact@neoncorte.com
© All Rights Reserved. Neoncorte Bio. 2024-2026
contact@neoncorte.com
contact@neoncorte.com