Porous materials with tunable structures and surface chemistry enable precise and efficient gas capture.
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High surface area for enhanced adsorption capacity
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Selective affinity for sulfur compounds and VOCs
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Tunable pore structures for targeted separation
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Stable performance under real-world operating conditions
Engineered Adsorbent Materials
Compact and scalable adsorption systems designed for reliable industrial deployment.
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Fixed-bed adsorption columns optimized for gas purification
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Swappable cartridge design for minimal downtime
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Scalable from pilot units to full-scale installations
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Compatible with existing biogas and industrial gas infrastructure.
Modular System
Regeneration Advantage
Unlike disposable media, our advanced adsorbent materials are designed for multiple regeneration cycles, enabling continuous operation and lower lifecycle costs.
Low-temperature regeneration (<200°C) reduces energy consumption
15+ cycles validated under laboratory conditions
Reduced operating costs compared to single-use media with stable performance
Capture and eliminate odor-causing gases and volatile organic compounds (VOCs) at the source.
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Reduce nuisance odors and environmental impact
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Improve air quality in industrial and agricultural settings
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Enable compliance with air emission regulations
Odor & Air-Quality Control
Enhance biomethane quality through selective removal of contaminants such as H₂S and VOCs.
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Protect downstream equipment from corrosion
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Improve methane purity and consistency
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Enable cleaner and more reliable RNG production
Biogas Upgrading
Targeted removal of sulfur compounds, VOCs, and acid gases before downstream processing or release.
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Protect process equipment and catalysts
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Support environmental compliance and permitting
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Flexible deployment across industrial operations
Industrial Emissions Pre-Treatment
Advanced Porous Materials for Gas Purification
UniMOF develops and engineers advanced porous materials and adsorption systems for real-world industrial gas purification.
Our technology combines metal–organic frameworks (MOFs), supramolecular organic frameworks (SOFs), and hybrid materials to enable selective capture of hydrogen sulfide (H₂S), volatile organic compounds (VOCs), and other contaminants. These materials are designed to remove harmful gases while preserving valuable components such as methane or clean air streams.
Integrated with modular hardware, our systems deliver compact, energy-efficient, and scalable solutions for applications ranging from biogas upgrading to industrial air treatment and emissions control.