The Global Market for Metal-Organic Frameworks (MOFs) 2024-2035
Description
The Global Market for Smart and Sustainable Buildings 2023-2033
Metal-organic frameworks, or MOFs, are highly crystalline, porous materials with nanometre-sized pores and large internal surface areas. Their structures make them useful for applications such as carbon capture, adsorption of greenhouse gas methane, and dehumidification of air for room climate control. MOFs exhibit unique physicochemical properties, including high surface area, ultra-high porosity, low crystal density as well as remarkable thermal and chemical stabilities.
The Global Market for Metal-Organic Frameworks (MOFs) 2024-2035 provides a comprehensive analysis of metal-organic frameworks (MOFs), an emerging class of highly porous materials with molecules designed to enable customized properties across diverse applications from gas storage and separation to water harvesting, biomedicine, sensors, energy storage and more. The report analyzes key synthesis methods, structure and properties of MOFs in comparison to other porous materials like zeolites and covalent organic frameworks (COFs). An assessment of global market revenues and demand forecasts from 2018-2035 is provided, segmented by end-use sector and region. Granular ten-year projections provide market outlooks for MOF adoption in carbon capture, hydrogen storage, catalysis, biomedicine, batteries and across 15 other key industries where these advanced materials promise performance advantages and sustainability benefits.
Additionally, the report profiles 35+ leading companies commercializing MOF technologies including innovative startups and major corporations. Competencies and partnerships span R&D around novel MOF production techniques, commercialization of formulations targeting gas separation/storage, drug delivery, water harvesting and next-generation solutions for carbon dioxide removal and heat exchangers. Companies profiled include Atomis, BASF, Disruptive Materials AB, H2MOF, novoMOF AG, Nuada, NuMat Technologies, Inc., and ProfMOF.
Table of Contents
118 Pages
- Example MOFs and their applications.
- Summary of MOFs.
- Structure and properties
- Comparison to other porous materials
- Synthesis methods
- Markets and applications
- Industry developments 2021-2024
- Factors driving demand for MOFs
- Market map
- Value chain
- Commercial MOF products
- SWOT analysis
- Capture, Separation and Storage
- Catalysis
- Coatings
- Biomedicine
- Sensors
- Air and water filtration
- Water harvesting
- Batteries and supercapacitors
- Heat exchangers
- Optics and imaging
- HVAC
- Global market revenues, 2018-2035
- Global MOF patent applications
- Patenting by sector
- Patenting by regional authority
- ACSYNAM
- AspiraDAC Pty Ltd.
- Atomis, Inc.
- BASF SE
- Carbon Infinity Limited
- Disruptive Materials AB
- ExxonMobil
- Framergy, Inc.
- Green Science Alliance
- H2MOF
- Immaterial Ltd
- Matrix Sensors, Inc.
- Montana Technologies
- Mosaic Materials, Inc. (Baker Hughes)
- MOFApps AS
- MOFLab Pte Ltd
- MOFEX Cp., Ltd.
- MOFWORX
- MOF Circle
- Nanoseen
- novoMOF AG
- Nuada
- NuMat Technologies, Inc.
- Orchestra Scientific S.L.
- ProfMOF AS
- Promethean Particles Ltd.
- SiKÉMIA
- Svante, Inc.
- SyncMOF Co., Ltd.
- Transaera, Inc.
- UniSieve Ltd.
- Water Harvesting ,Inc.
- Zerochem
- Inmondo Tech
- MetaMOF LLC
- MOFgen Ltd.
- RiMO Therapeutics
- ZoraMat Solutions
- STREM Chemicals Inc.
- Sigma-Aldrich/Merck
- REFERENCES
Pricing
Currency Rates
Questions or Comments?
Our team has the ability to search within reports to verify it suits your needs. We can also help maximize your budget by finding sections of reports you can purchase.
