Global Metal-organic Framework Market Growth, Share, Size, Trends and Forecast (2025 - 2031)

• In May 2022, Promethean Particles collaborated with Drax and the University of Nottingham to innovate the application of metal-organic frameworks (MOFs) for energy-efficient carbon capture.

• In March 2024, advancements in MOFs for hydrogen storage enhanced their viability in renewable energy applications.

The global metal-organic framework (MOF) market is segmented based on synthesis methods, including solvothermal/hydrothermal, microwave-assisted, and mechanochemical. Solvothermal/hydrothermal synthesis is currently the most widely used method due to its versatility and ability to produce high-quality MOFs. However, microwave-assisted synthesis offers advantages like faster reaction times and improved energy efficiency, while mechanochemical synthesis presents an environmentally friendly alternative by minimizing the use of solvents.

In terms of type, the market is dominated by zinc-based MOFs, owing to their relatively low cost, ease of synthesis, and diverse applications. Copper-based MOFs are gaining traction due to their high porosity and potential for gas storage and separation. Other types, including iron-based, aluminum-based, and magnesium-based MOFs, are also showing promise in specific applications.

The end-user segment is primarily driven by gas storage and separation applications. MOFs exhibit exceptional gas adsorption properties, making them ideal for capturing and storing gases such as hydrogen, methane, and carbon dioxide. In the separation sector, MOFs are used to selectively separate gas mixtures, which has significant implications for industrial processes like gas purification and air capture.

Global Metal-organic Framework Segment Analysis

In this report, the Global Metal-organic Framework Market has been segmented by Synthesis Method, Type, End-User and Geography.

Global Metal-organic Framework Market, Segmentation by Synthesis Method

The global Metal-Organic Framework (MOF) market is segmented by Synthesis Method into Solvothermal/Hydrothermal, Microwave-assisted, and Mechanochemical.

The global Metal-Organic Framework (MOF) market exhibits diverse synthesis methods, significantly influencing the properties and applications of the resulting materials. The Solvothermal/Hydrothermal method, involving reactions in solvents at elevated temperatures and pressures, remains a dominant approach. This method offers versatility and control over crystal size and morphology, making it suitable for producing a wide range of MOFs.

Microwave-assisted synthesis provides a rapid and energy-efficient alternative, accelerating reaction times and improving product yields. This technique is particularly advantageous for synthesizing MOFs with complex structures or those requiring precise control over particle size. Mechanochemical synthesis, on the other hand, utilizes mechanical energy to induce chemical reactions, eliminating the need for solvents. This approach is environmentally friendly and suitable for producing MOFs with specific morphologies and functionalities.

The choice of synthesis method significantly impacts the overall production costs, energy consumption, and environmental impact of MOF manufacturing. Continuous advancements in synthesis techniques are crucial for optimizing MOF production processes, enhancing their scalability, and expanding their commercial applications.

Global Metal-organic Framework Market, Segmentation by Type

The global Metal-Organic Framework (MOF) market is segmented by Type into Zinc-based, Copper-based , Iron-based, Aluminum-based, Magnesium-based, and Others.

Each distinguished by the metal center used in the framework. Zinc-based MOFs are widely recognized for their stability and versatility, making them suitable for applications in gas storage, catalysis, and environmental remediation. Their ability to form robust frameworks with high surface areas contributes to their popularity in various industrial applications.

Copper-based MOFs are notable for their excellent electrical and thermal conductivity, making them ideal for use in electronics and catalysis. These MOFs often feature strong metal-ligand interactions, which enhance their performance in selective gas adsorption and separation processes. Their unique properties enable advancements in high-performance material applications and innovative technologies.

Iron-based MOFs, characterized by their low cost and high stability, are used in environmental and energy applications. Aluminum-based MOFs are valued for their thermal stability and low density, suitable for use in lightweight and high-temperature environments. Magnesium-based MOFs offer high porosity and low cost, making them attractive for applications in gas storage and separation. The "Others" category encompasses various specialized MOFs with unique metal centers and tailored properties for niche applications.

Global Metal-organic Framework Market, Segmentation by End-User

The global Metal-Organic Framework (MOF) market is segmented by End-user into gGas Storage, and Separation.

Highlighting the significant role MOFs play in these critical areas. Gas storage utilizes MOFs for their high surface area and porosity, which allow for the efficient storage of gases like hydrogen and methane. This capability is crucial for energy applications, including clean energy solutions and fuel storage systems.

Gas separation is another key application for MOFs, where their selective adsorption properties enable the separation of gases based on size, shape, or chemical affinity. MOFs are employed to separate carbon dioxide from industrial emissions or to purify natural gas, contributing to environmental sustainability and improved efficiency in industrial processes.

The versatility and tunability of MOFs make them highly effective for both gas storage and separation, leading to their increasing adoption in industries focused on energy, environmental management, and advanced materials. This segmentation underscores the importance of MOFs in addressing both energy storage challenges and environmental concerns.

Global Metal-organic Framework Market, Segmentation by Geography

In this report, the Global Metal-organic Framework Market has been segmented by Geography into five regions; North America, Europe, Asia Pacific, Middle East and Africa and Latin America.

Global Metal-organic Framework Market Share (%), by Geographical Region, 2024

The global Metal-Organic Framework (MOF) market is segmented by geography into key regions, each exhibiting unique growth patterns and adoption rates. North America is a major player in the MOF market due to its advanced research infrastructure and significant investments in materials science and technology. The region's focus on innovation and sustainability drives demand for MOFs in various applications, including gas storage, catalysis, and environmental remediation.

Europe also represents a substantial market for MOFs, fueled by strong academic research and a commitment to environmental sustainability. European countries are actively investing in MOF technologies for applications such as carbon capture and clean energy solutions. The region's regulatory frameworks and funding initiatives support the development and commercialization of advanced materials.

Asia-Pacific is experiencing rapid growth in the MOF market, driven by industrial expansion and increasing research activities. Countries like China, Japan, and India are focusing on MOF applications in energy storage, pollution control, and manufacturing. The region's growing industrial base and technological advancements contribute to the expanding use of MOFs in various sectors.