Description

Key Properties & Structural Advantages
DUT-67??s performance stems from its carefully engineered structure and intrinsic material characteristics:

Exceptionally High Surface Area: Provides an extensive interface for molecular interactions, maximizing adsorption capacity and catalytic activity??a critical feature for applications requiring high molecular loading.
Large Pore Volume: Accommodates larger molecules and facilitates efficient mass transport, enhancing performance in gas separation and catalytic reactions where diffusion is a limiting factor.
Outstanding Chemical Stability: Resists degradation in harsh chemical environments, including exposure to acids, bases, and organic solvents, ensuring long-term functionality in industrial processes.
Superior Thermal Stability: Maintains structural integrity under elevated temperatures, enabling use in high-heat applications such as catalytic reactions and thermal energy conversion systems.
Core Applications
Gas Separation & Purification
DUT-67 excels in selective adsorption of key gases, making it a premier material for:

Industrial Gas Purification: Efficiently separates CO?, H?, and CH? from mixed gas streams, enabling purification of industrial feedstocks and fuel gases.
Air Separation: Selectively captures or excludes specific gas components, supporting applications in aerospace, medical, and industrial gas production.
Carbon Capture: Targets CO? in flue gases or ambient air, contributing to efforts to reduce greenhouse gas emissions and mitigate climate change.
Catalysis & Catalyst Support
Catalyst Support for Metal Nanoparticles: Its large surface area and stable framework provide an ideal platform for anchoring metal nanoparticles (e.g., Pt, Pd). This configuration is particularly effective in reactions like formic acid decomposition for clean hydrogen production, where the MOF??s structure enhances catalytic efficiency and stability.
Intrinsic Catalytic Activity: Exhibits inherent catalytic properties for various organic reactions, including esterification, oxidation, and cross-coupling reactions, eliminating the need for additional catalytic agents in specific processes.
Energy Conversion & Storage
Photocatalytic Hydrogen Production: When integrated with photosensitive materials, DUT-67 facilitates efficient photocatalytic water splitting or hydrogen generation from renewable sources, supporting the development of clean energy technologies.
Adsorption Refrigeration & Thermal Energy Systems: Its remarkable adsorption properties??including high uptake capacity and reversible adsorption/desorption behavior??make it suitable for adsorption refrigeration systems, heat pumps, and cooling devices, offering energy-efficient alternatives to traditional compression-based systems.
Research & Industrial Utility
Academic Research: Serves as a model system for studying zirconium-based MOF chemistry, adsorption mechanisms, and structure-function relationships, aiding in the design of next-generation porous materials.
Industrial Scalability: Its stability and performance consistency make it adaptable to industrial-scale processes, from gas processing plants to catalytic reactors and energy systems.
Quality & Handling
Research-Grade Purity: Synthesized under strict quality controls to ensure structural integrity and reproducible performance. Each batch is characterized via X-ray diffraction (XRD), nitrogen adsorption-desorption, and thermal gravimetric analysis (TGA).
Handling & Storage: Supplied as a fine powder in airtight, moisture-resistant containers. Store in a dry environment at room temperature to preserve adsorption capacity and structural stability.
Why DUT-67?
DUT-67 combines the best of zirconium-based MOFs??stability, porosity, and versatility??making it a multifunctional material for solving complex challenges in gas processing, catalysis, and energy conversion. Whether you??re advancing fundamental research or scaling industrial technologies, DUT-67 delivers reliable performance across diverse applications.

Contact our technical team for bulk pricing, customization options, or detailed characterization data to support your specific needs.