Published March 5 2021, 48 pages, 6 tables, 17 figures
Metal organic frameworks (MOFs) are organic-inorganic crystalline structures consisting of metal ions and organic linker molecules (ligands), creating open crystalline frameworks with permanent porosity. They possess extremely high porosity and surface area and were first developed in the late 1990s. Commercial interest in MOFs has exploded recently in gas storage and separation, purification, electrochemical energy storage and sensing.
MOFs are highly attractive for a range of industrial applications as they use non-hazardous feedstock, are cost-effective and environmentally friendly. They are potentially key materials in industrial adsorption, storage processes and catalysis. MOFs can be used to store, separate, release or protect in a range of applications including:
- Air and water filtration.
- Carbon capture, utilization and storage.
- Gas storage and delivery, and natural gas storage and purification.
- Improved chemical separations.
- Batteries and supercapacitors.
- Food packaging.
- Anti-bacterials.
- Drug delivery.
- Fuel production.
- Solvent or heavy metal recovery.
- Adsorbents for organic pollutants.
- Water harvesting.
- Heat exchangers.
- Pharmaceuticals
A number of start-ups are bringing MOF products to the market, and production volumes have increased in the past two years.
Report contents include:
- Properties of Metal-organic frameworks (MOFs).
- Applications of Metal-organic frameworks (MOFs).
- Addressable markets for Metal-organic frameworks (MOFs). Markets covered include Coatings, Gas Capture, Separation and Storage, Biomedicine (Drug delivery, antibacterials, biosensors and bioimaging), Sensors, Air and Water Filtration, Water Harvesting, Batteries and Supercapacitors, Heat Exchangers and Air Conditioning.
- Global market revenues to 2031.
- Profiles of 22 companies including products and targeted markets.
1 INTRODUCTION 7
- 1.1 Properties 7
- 1.2 Materials 8
- 1.3 Synthesis 9
- 1.4 Applications 11
2 MARKETS FOR METAL-ORGANIC FRAMWEWORKS (MOF) 13
- 2.1 Coatings 13
- 2.1.1 Properties 13
- 2.1.2 Applications 13
- 2.2 Gas Capture, Separation and Storage 14
- 2.2.1 Properties 14
- 2.2.2 Applications 14
- 2.3 Biomedicine 15
- 2.3.1 Drug delivery 15
- 2.3.2 Antibacterials 15
- 2.3.3 Biosensors and bioimaging 16
- 2.4 Sensors 17
- 2.4.1 Properties 17
- 2.4.2 Applications 17
- 2.5 Air and water filtration 19
- 2.5.1 Properties 19
- 2.5.2 Applications 19
- 2.6 Water harvesting 20
- 2.7 Batteries and supercapacitors 20
- 2.8 Heat exchangers 21
- 2.9 HVAC 22
3 GLOBAL MARKET REVENUES 2018-2031 23
4 MOF PATENTS 24
- 4.1 Global MOF patent applications 24
- 4.2 Patenting by sector 25
- 4.3 Patenting by regional authority 25
5 MOF PRODUCER PROFILES 26
- 5.1 ACSYNAM 26
- 5.2 Atomis, Inc. 26
- 5.3 BASF SE 27
- 5.4 Framergy, Inc. 28
- 5.5 Green Science Alliance 29
- 5.6 Immaterial Ltd 30
- 5.7 Matrix Sensors, Inc. 30
- 5.8 MOF Technologies Ltd. 31
- 5.9 Mosaic Materials, Inc. 32
- 5.10 MOFApps AS 33
- 5.11 MOFWORX 33
- 5.12 novoMOF AG 34
- 5.13 NuMat Technologies, Inc. 35
- 5.14 Orchestra Scientific S.L. 36
- 5.15 ProfMOF AS 36
- 5.16 Promethean Particles Ltd. 37
- 5.17 SiKÉMIA 38
- 5.18 SyncMOF Co., Ltd. 39
- 5.19 Transaera, Inc. 40
- 5.20 UniSieve Ltd. 41
- 5.21 Water Harvesting ,Inc. 42
- 5.22 ZoraMat Solutions 42
6 EX-PRODUCERS 44
- 6.1 Inmondo Tech 44
- 6.2 MOFgen Ltd. 44
- 6.3 RiMO Therapeutics 44
7 DISTRIBUTORS 45
- 7.1 STREM Chemicals Inc. 45
- 7.2 Sigma-Aldrich/Merck 45
8 REFERENCES 47
Tables
- Table 1. Summary of MOFs. 7
- Table 2. Example synthesis routes for MOFs. 10
- Table 3. Markets and applications of Metal-organic frameworks (MOFs). 11
- Table 4. Applications of MOFs in gas storage and separation. 14
- Table 5. MOF sensor applications. 17
- Table 6. Global market revenues for MOFs, 2018-2031, Millions USD. 23
Figures
- Figure 1. Schematic drawing of a metal–organic framework (MOF) structure.s 8
- Figure 2. MOF synthesis methods historically. 10
- Figure 3. Electrochemistry Synthesis method. 10
- Figure 4. Spray-drying method. 11
- Figure 5. Schematic of continuous flow microfluidic device for producing MOFs. 11
- Figure 6. NuMat’s ION-X cylinders. 14
- Figure 7. Antibacterial mechanisms of metal–organic frameworks. 16
- Figure 8. Capture mechanism for MOFs toward air pollutants. 19
- Figure 9. Schematic of a MOF-based device for water harvesting. 20
- Figure 10. MOF-coated heat exchanger. 21
- Figure 11. Global market revenues for MOFs, 2018-2031, Millions USD. 23
- Figure 12. Global MOF patent applications 2001-2019. 24
- Figure 13. Patent applications by sector. 25
- Figure 14. Patent applications by authority. 25
- Figure 15. Mosaic Materials MOFs. 32
- Figure 16. MOF-based cartridge (purple) added to an existing air conditioner. 40
- Figure 17. Molecular sieving membrane. 41
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