Real-World Applications

Transforming Industries with AI-Powered Solutions

Discover how leading organizations leverage our cutting-edge AI to revolutionize material discovery, chemical development, and breakthrough innovations across multiple industries.

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Transforming Material Discovery

Wellmatix collaborates with a wide range of organizations, from emerging startups to leading corporations and prestigious academic institutions.

Real-World Applications

Discover how leading organizations leverage our AI-powered solutions to transform their material discovery and development processes.

Use Case #1

Our AI-driven drug discovery platform identifies protein hits with high docking scores and evaluates ADMET properties at the early stage of drug development. For more information, please contact us via email.

Our AI-driven drug discovery platform accelerates and de-risks the early stages of pharmaceutical research by integrating advanced computational modeling with machine learning. The system not only identifies promising protein–ligand interactions with high docking scores, but also simultaneously evaluates ADMET (Absorption, Distribution, Metabolism, Excretion, and Toxicity) properties. By combining virtual screening, …

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Use Case #2

Our AI-driven drug discovery platform generates novel molecules with high accuracy for specific diseases, providing promising drug candidates. For more information, please contact us via email.

Our AI-driven drug discovery platform leverages advanced generative models to design and optimize novel molecules tailored to specific disease targets. By integrating structural biology insights, molecular docking, and deep learning algorithms, the platform produces candidate compounds with high precision and therapeutic relevance. Each generated molecule undergoes in silico evaluation for …

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Use Case #3

Our AI-driven drug discovery platform helps optimize antibody–drug conjugates for various cancers. For more information, please contact us via email.

Our AI-driven drug discovery platform is designed to accelerate the development of next-generation antibody–drug conjugates (ADCs) for oncology. By integrating deep learning with structural modeling, the platform optimizes critical parameters such as antibody–antigen binding, linker stability, and payload selection to enhance both efficacy and safety. Through in silico screening and …

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Use Case #4

Our platform enables accurate peptide generation from SMILES representations, supporting early-stage drug discovery. For more information, please contact us via email.

Our platform enables accurate peptide generation from SMILES representations, transforming simple chemical notations into biologically meaningful peptide structures. By applying advanced deep learning models and structural prediction algorithms, it streamlines the design of novel therapeutic peptides with optimized stability, binding affinity, and bioavailability. This capability supports early-stage drug discovery by …

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Use Case #5

Our AI platform identifies Metal–Organic Framework (MOF) structures optimized for carbon capture applications. For more information, please contact us via email.

Our AI platform identifies and designs Metal–Organic Framework (MOF) structures optimized for carbon capture applications. By leveraging advanced machine learning models, high-throughput screening, and molecular simulations, the platform rapidly explores vast chemical design spaces to pinpoint MOFs with high selectivity, stability, and adsorption capacity for CO₂. This data-driven approach accelerates …

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Use Case #6

Our AI platform identifies Metal–Organic Framework (MOF) structures optimized for water treatment applications. For more information, please contact us via email

Our AI platform identifies and designs Metal–Organic Framework (MOF) structures optimized for water treatment applications. By integrating machine learning with molecular simulations and high-throughput screening, the platform accelerates the discovery of MOFs capable of removing contaminants such as heavy metals, organic pollutants, and emerging micropollutants with high selectivity and efficiency. …

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Use Case #7

Our platform enables state-of-health (SoH) degradation analysis of batteries and provides optimization insights for improved performance. For more information, please contact us via email.

Our platform enables advanced state-of-health (SoH) degradation analysis of batteries, delivering deep insights into performance loss, aging mechanisms, and safety risks. By combining AI-driven modeling with real-time data analytics, the system predicts degradation pathways and forecasts battery lifespan with high accuracy. These insights allow for optimization of operating conditions, materials, …

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Use Case #8

We are focused on exploring insights into sodium-ion and solid-state batteries. Our platform provides detailed analysis of cathodes and material combinations. For more information, please contact us via email.

We are focused on advancing insights into next-generation energy storage, with a particular emphasis on sodium-ion and solid-state batteries. Our platform provides detailed analysis of cathode materials, electrolyte interactions, and material combinations, enabling the identification of optimal designs for enhanced energy density, stability, and safety. By leveraging AI-driven simulations and …

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Use Case #9

If you are seeking high-performance piezoelectric materials and optimization solutions, our platform can help. For more information, please contact us via email.

If you are seeking high-performance piezoelectric materials and optimization solutions, our platform offers advanced AI-driven screening and predictive modeling to accelerate discovery and design. By analyzing crystal structures, material properties, and performance parameters, the platform identifies compounds with enhanced electromechanical coupling, stability, and efficiency. This approach enables the rapid development …

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Use Case #10

Interested in carbon nanotubes—their synthesis, functionalization, and applications? Our platform provides accurate, actionable insights. For more information, please contact us via email

Interested in carbon nanotubes—their synthesis, functionalization, and applications? Our platform provides accurate, data-driven insights to accelerate innovation in this field. By leveraging AI-powered modeling and material simulations, it enables the optimization of synthesis pathways, surface functionalization strategies, and property tuning for targeted applications. From advanced composites and energy storage to …

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Use Case #11

Interested in organic/perovskite solar cells—their properties, performance, and applications? Our platform can help with data-driven insights and optimization. For more information, please contact us via email.

Interested in organic and perovskite solar cells—their properties, performance, and applications? Our platform delivers data-driven insights and optimization solutions to accelerate material discovery and device engineering. By integrating AI-powered modeling with high-throughput simulations, it enables the prediction of stability, efficiency, and scalability for novel material combinations. This approach supports the …

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Use Case #12

Interested in nanomaterials and nanofibers—their properties and applications? Our platform provides comprehensive insights. For more information, please contact us via email.

Interested in nanomaterials and nanofibers—their properties and applications? Our platform provides comprehensive insights powered by AI-driven simulations and data analytics. From structural characterization and property prediction to performance optimization, it enables the discovery and design of advanced nanostructures for diverse applications. Whether in energy storage, filtration, biomedicine, or advanced composites, …

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