Global Ion Exchange Membrane Market : Industry Analysis and forecast 2027 : By Charge, Material, Structure, Application and Region

Global Ion Exchange Membrane Market was valued US$ XX Mn in 2019 and is expected to reach US$ XX Mn by 2027, at CAGR of 3.5% during forecast period of 2020 to 2027. The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters. Since lock down was implemented differently in different regions and countries, impact of same is also different by regions and segments. The report has covered the current short term and long term impact on the market, same will help decision makers to prepare the outline for short term and long term strategies for companies by region. Global Ion Exchange Membrane Market Drivers and Restrains: Ion exchange membranes are semipermeable membranes that transports certain dissolved ions, while blocking other ions or neutral molecules. These ionic species enable the separation, concentration, or exclusion of ionic types from a fluid flow. They are used in removing impurities from contaminated water. Anionic and Cationic, these two types of ion exchange membranes existing in the market. The Ion exchange membranes are used in a various number of industrial procedures. The global Ion exchange membrane market is driven by increasing demand from wastewater treatment, surging demand from healthcare and electronics sector. The rising demand for Ion exchange membrane from various industries and requirement of selective separation to maintain water quality standards are expected to fuel the market growth over the forecast period. However, rising health concerns due to non-ionized organic contamination is anticipated to hamper the market growth at the global level. Rise in wastewater treatment projects in developing economies are expected to create beneficial opportunities for the market growth during the forecast period. Global Ion Exchange Membrane Market Segmentation Analysis: Based on the application, the wastewater treatment segment has led the Ion exchange membrane market in 2019 and is estimated to generate more than US$ XX Mn market revenue by 2027, with a CAGR of XX%. Thanks to increased usage of ion exchange membranes in water treatments and purification. In the past decade, there has been an increase in the concerns of clean water for drinking and sanitation around the global, which are fuel the demand for ion exchange membranes. Ion exchange membranes are referred to in a variety of applications, containing separation and purification. The membrane technology provides several benefits like low maintenance cost, high energy efficiency, and is eco-friendly. In India, the Safe Drinking Water Act (SDWA) requires EPA (the United States Environmental Protection Agency) helps the Safe Drinking Water Act (SDWA) in India to establish regulations, to protect human health from contaminants in drinking water. The act authorizes EPA to improve national drinking water standards and confirm compliance with these standards. Global Ion Exchange Membrane Market Regional Analysis: Geographically, the Ion exchange membrane market is segmented into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. Asia Pacific held the prominent market share of XX% in 2019 and is expected to reach US$ Mn by the end of 2027, with a CAGR of XX%, owing to the high demand for Ion exchange membrane from developing countries such as China and India. In Asia-Pacific, government policies regarding water treatment in the emerging countries of the region such as China, India, and Indonesia, which are also increasing the market demand in the future. In highly populated countries such as China and India, which are the need for conservation and re-use of water is rising at a significant rate. Moreover, the rising investments in research and development activities for the introduction of advanced Ion exchange membrane is predicted to accelerate the growth of this region in the near future. A report cover the recent development in market for the global Ion exchange membrane market e.g., Ionomr Innovations have developed a new ion exchange membrane named Aemion that addresses the environmental concerns coupled with the limitations of sustainability and cost. The objective of the report is to present a comprehensive analysis of global Ion Exchange Membrane market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all aspects of the industry with a dedicated study of key players that includes market leaders, followers and new entrants by region. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors by region on the market are presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding global Ion Exchange Membrane market dynamics, structure by analyzing the market segments and project the global Ion Exchange Membrane market size. Clear representation of competitive analysis of key players By Type, Price, Financial position, Product portfolio, Growth strategies, and regional presence in the global Ion Exchange Membrane market make the report investor’s guide.

Scope of the Global Ion Exchange Membrane Market:

Global Ion Exchange Membrane Market, by Charge:

• Cation Exchange Membrane • Anion Exchange Membrane • Amphoteric Ion Exchange Membrane • Bipolar Ion Exchange Membrane • Mosaic Ion Exchange Membrane

Global Ion Exchange Membrane Market, by Material:

• Hydrocarbon Membrane • Perfluorocarbon Membrane • Inorganic Membrane • Composite Membrane • Partially halogenated Membrane

Global Ion Exchange Membrane Market, by Structure:

• Heterogeneous • Homogenous

Global Ion Exchange Membrane Market, by Application:

• Electrodialysis • Electrolysis • Chromatographic Separation • Desalination • Waste Water Treatment • Radioactive Liquid Waste Treatment

Global Ion Exchange Membrane Market, by Region:

• Asia Pacific • North America • Europe • Latin America • Middle East Africa

Global Ion Exchange Membrane Market, Major Players:

• The Dow Chemical Company • Lanxess Ag • 3M • Ion Exchange Ltd. • ResinTech Inc. • General Electric Company • Hyflux Ltd • Parker-Hannifin Corporation • Axeon Water Technologies • GEA Filtration • AGC ENGINEERING Co. Ltd • Ionomr Innovations • Dioxide Materials • DuPont de Nemours, Inc. • Evergreen Technologies Pvt Ltd • Fujifilm Manufacturing Europe BV • Saltworks Technologies Inc. • Liaoning Yichen Membrane Technology Co. Ltd • Membranes International Inc. • Merck KGaA • Origin Water Technology Co., Ltd • Duraflow LLC • Porex Corp • Microdyn-nadir GmbH • Jiuwu Hi-Tech • Atech Innovations GmbH • FuMa-Tech GmbH • Golden Energy Fuel Cell • Dalian Institute of Chemical Physics

Global Ion Exchange Membrane Market

1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Ion Exchange Membrane Market Size, by Market Value (US$ Bn) & Volume (Unit) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 5. Supply Side and Demand Side Indicators 6. Global Ion Exchange Membrane Market Analysis and Forecast 6.1. Global Ion Exchange Membrane Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Ion Exchange Membrane Market Analysis and Forecast, by Charge 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Ion Exchange Membrane Market Value Share Analysis, by Charge 7.4. Global Ion Exchange Membrane Market Size (US$ Bn) Forecast, by Charge 7.5. Global Ion Exchange Membrane Market Analysis, by Charge 7.6. Global Ion Exchange Membrane Market Attractiveness Analysis, by Charge 8. Global Ion Exchange Membrane Market Analysis and Forecast, by Technology 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Ion Exchange Membrane Market Value Share Analysis, by Technology 8.4. Global Ion Exchange Membrane Market Size (US$ Bn) Forecast, by Technology 8.5. Global Ion Exchange Membrane Market Analysis, by Technology 8.6. Global Ion Exchange Membrane Market Attractiveness Analysis, by Technology 9. Global Ion Exchange Membrane Market Analysis and Forecast, by Structure 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Ion Exchange Membrane Market Value Share Analysis, by Structure 9.4. Global Ion Exchange Membrane Market Size (US$ Bn) Forecast, by Structure 9.5. Global Ion Exchange Membrane Market Analysis, by Structure 9.6. Global Ion Exchange Membrane Market Attractiveness Analysis, by Structure 10. Global Ion Exchange Membrane Market Analysis and Forecast, by Application 10.1. Introduction and Definition 10.2. Key Findings 10.3. Global Ion Exchange Membrane Market Value Share Analysis, by Application 10.4. Global Ion Exchange Membrane Market Size (US$ Bn) Forecast, by Application 10.5. Global Ion Exchange Membrane Market Analysis, by Application 10.6. Global Ion Exchange Membrane Market Attractiveness Analysis, by Application 11. Global Ion Exchange Membrane Market Analysis, by Region 11.1. Global Ion Exchange Membrane Market Value Share Analysis, by Region 11.2. Global Ion Exchange Membrane Market Size (US$ Bn) Forecast, by Region 11.3. Global Ion Exchange Membrane Market Attractiveness Analysis, by Region 12. North America Ion Exchange Membrane Market Analysis 12.1. Key Findings 12.2. North America Ion Exchange Membrane Market Overview 12.3. North America Ion Exchange Membrane Market Value Share Analysis, by Charge 12.4. North America Ion Exchange Membrane Market Forecast, by Charge 12.4.1. Cation Exchange Membrane 12.4.2. Anion Exchange Membrane 12.4.3. Amphoteric Ion Exchange Membrane 12.4.4. Bipolar Ion Exchange Membrane 12.4.5. Mosaic Ion Exchange Membrane 12.5. North America Ion Exchange Membrane Market Value Share Analysis, by Technology 12.6. North America Ion Exchange Membrane Market Forecast, by Technology 12.6.1. Hydrocarbon Membrane 12.6.2. Perfluorocarbon Membrane 12.6.3. Inorganic Membrane 12.6.4. Composite Membrane 12.6.5. Partially halogenated Membrane 12.7. North America Ion Exchange Membrane Market Value Share Analysis, by Structure 12.8. North America Ion Exchange Membrane Market Forecast, by Structure 12.8.1. Heterogeneous 12.8.2. Homogenous 12.9. North America Ion Exchange Membrane Market Value Share Analysis, by Application 12.10. North America Ion Exchange Membrane Market Forecast, by Application 12.10.1. Electrodialysis 12.10.2. Electrolysis 12.10.3. Chromatographic Separation 12.10.4. Desalination 12.10.5. Waste Water Treatment 12.10.6. Radioactive Liquid Waste Treatment 12.11. North America Ion Exchange Membrane Market Value Share Analysis, by Country 12.12. North America Ion Exchange Membrane Market Forecast, by Country 12.12.1. U.S. 12.12.2. Canada 12.13. North America Ion Exchange Membrane Market Analysis, by Country 12.14. U.S. Ion Exchange Membrane Market Forecast, by Charge 12.14.1. Cation Exchange Membrane 12.14.2. Anion Exchange Membrane 12.14.3. Amphoteric Ion Exchange Membrane 12.14.4. Bipolar Ion Exchange Membrane 12.14.5. Mosaic Ion Exchange Membrane 12.15. U.S. Ion Exchange Membrane Market Forecast, by Technology 12.15.1. Hydrocarbon Membrane 12.15.2. Perfluorocarbon Membrane 12.15.3. Inorganic Membrane 12.15.4. Composite Membrane 12.15.5. Partially halogenated Membrane 12.16. U.S. Ion Exchange Membrane Market Forecast, by Structure 12.16.1. Heterogeneous 12.16.2. Homogenous 12.17. U.S. Ion Exchange Membrane Market Forecast, by Application 12.17.1. Electrodialysis 12.17.2. Electrolysis 12.17.3. Chromatographic Separation 12.17.4. Desalination 12.17.5. Waste Water Treatment 12.17.6. Radioactive Liquid Waste Treatment 12.18. Canada Ion Exchange Membrane Market Forecast, by Charge 12.18.1. Cation Exchange Membrane 12.18.2. Anion Exchange Membrane 12.18.3. Amphoteric Ion Exchange Membrane 12.18.4. Bipolar Ion Exchange Membrane 12.18.5. Mosaic Ion Exchange Membrane 12.19. Canada Ion Exchange Membrane Market Forecast, by Technology 12.19.1. Hydrocarbon Membrane 12.19.2. Perfluorocarbon Membrane 12.19.3. Inorganic Membrane 12.19.4. Composite Membrane 12.19.5. Partially halogenated Membrane 12.20. Canada Ion Exchange Membrane Market Forecast, by Structure 12.20.1. Heterogeneous 12.20.2. Homogenous 12.21. Canada Ion Exchange Membrane Market Forecast, by Application 12.21.1. Electrodialysis 12.21.2. Electrolysis 12.21.3. Chromatographic Separation 12.21.4. Desalination 12.21.5. Waste Water Treatment 12.21.6. Radioactive Liquid Waste Treatment 12.22. North America Ion Exchange Membrane Market Attractiveness Analysis 12.22.1. By Charge 12.22.2. By Technology 12.22.3. By Structure 12.22.4. By Application 12.23. PEST Analysis 12.24. Key Trends 12.25. Key Developments 13. Europe Ion Exchange Membrane Market Analysis 13.1. Key Findings 13.2. Europe Ion Exchange Membrane Market Overview 13.3. Europe Ion Exchange Membrane Market Value Share Analysis, by Charge 13.4. Europe Ion Exchange Membrane Market Forecast, by Charge 13.4.1. Cation Exchange Membrane 13.4.2. Anion Exchange Membrane 13.4.3. Amphoteric Ion Exchange Membrane 13.4.4. Bipolar Ion Exchange Membrane 13.4.5. Mosaic Ion Exchange Membrane 13.5. Europe Ion Exchange Membrane Market Value Share Analysis, by Technology 13.6. Europe Ion Exchange Membrane Market Forecast, by Technology 13.6.1. Hydrocarbon Membrane 13.6.2. Perfluorocarbon Membrane 13.6.3. Inorganic Membrane 13.6.4. Composite Membrane 13.6.5. Partially halogenated Membrane 13.7. Europe Ion Exchange Membrane Market Value Share Analysis, by Structure 13.8. Europe Ion Exchange Membrane Market Forecast, by Structure 13.8.1. Heterogeneous 13.8.2. Homogenous 13.9. Europe Ion Exchange Membrane Market Value Share Analysis, by Application 13.10. Europe Ion Exchange Membrane Market Forecast, by Application 13.10.1. Electrodialysis 13.10.2. Electrolysis 13.10.3. Chromatographic Separation 13.10.4. Desalination 13.10.5. Waste Water Treatment 13.10.6. Radioactive Liquid Waste Treatment 13.11. Europe Ion Exchange Membrane Market Value Share Analysis, by Country 13.12. Europe Ion Exchange Membrane Market Forecast, by Country 13.12.1. Germany 13.12.2. U.K. 13.12.3. France 13.12.4. Italy 13.12.5. Spain 13.12.6. Rest of Europe 13.13. Europe Ion Exchange Membrane Market Analysis, by Country 13.14. Germany Ion Exchange Membrane Market Forecast, by Charge 13.14.1. Cation Exchange Membrane 13.14.2. Anion Exchange Membrane 13.14.3. Amphoteric Ion Exchange Membrane 13.14.4. Bipolar Ion Exchange Membrane 13.14.5. Mosaic Ion Exchange Membrane 13.15. Germany Ion Exchange Membrane Market Forecast, by Technology 13.15.1. Hydrocarbon Membrane 13.15.2. Perfluorocarbon Membrane 13.15.3. Inorganic Membrane 13.15.4. Composite Membrane 13.15.5. Partially halogenated Membrane 13.16. Germany Ion Exchange Membrane Market Forecast, by Structure 13.16.1. Heterogeneous 13.16.2. Homogenous 13.17. Germany Ion Exchange Membrane Market Forecast, by Application 13.17.1. Electrodialysis 13.17.2. Electrolysis 13.17.3. Chromatographic Separation 13.17.4. Desalination 13.17.5. Waste Water Treatment 13.17.6. Radioactive Liquid Waste Treatment 13.18. U.K. Ion Exchange Membrane Market Forecast, by Charge 13.18.1. Cation Exchange Membrane 13.18.2. Anion Exchange Membrane 13.18.3. Amphoteric Ion Exchange Membrane 13.18.4. Bipolar Ion Exchange Membrane 13.18.5. Mosaic Ion Exchange Membrane 13.19. U.K. Ion Exchange Membrane Market Forecast, by Technology 13.19.1. Hydrocarbon Membrane 13.19.2. Perfluorocarbon Membrane 13.19.3. Inorganic Membrane 13.19.4. Composite Membrane 13.19.5. Partially halogenated Membrane 13.20. U.K. Ion Exchange Membrane Market Forecast, by Structure 13.20.1. Heterogeneous 13.20.2. Homogenous 13.21. U.K. Ion Exchange Membrane Market Forecast, by Application 13.21.1. Electrodialysis 13.21.2. Electrolysis 13.21.3. Chromatographic Separation 13.21.4. Desalination 13.21.5. Waste Water Treatment 13.21.6. Radioactive Liquid Waste Treatment 13.22. France Ion Exchange Membrane Market Forecast, by Charge 13.22.1. Cation Exchange Membrane 13.22.2. Anion Exchange Membrane 13.22.3. Amphoteric Ion Exchange Membrane 13.22.4. Bipolar Ion Exchange Membrane 13.22.5. Mosaic Ion Exchange Membrane 13.23. France Ion Exchange Membrane Market Forecast, by Technology 13.23.1. Hydrocarbon Membrane 13.23.2. Perfluorocarbon Membrane 13.23.3. Inorganic Membrane 13.23.4. Composite Membrane 13.23.5. Partially halogenated Membrane 13.24. France Ion Exchange Membrane Market Forecast, by Structure 13.24.1. Heterogeneous 13.24.2. Homogenous 13.25. France Ion Exchange Membrane Market Forecast, by Application 13.25.1. Electrodialysis 13.25.2. Electrolysis 13.25.3. Chromatographic Separation 13.25.4. Desalination 13.25.5. Waste Water Treatment 13.25.6. Radioactive Liquid Waste Treatment 13.26. Italy Ion Exchange Membrane Market Forecast, by Charge 13.26.1. Cation Exchange Membrane 13.26.2. Anion Exchange Membrane 13.26.3. Amphoteric Ion Exchange Membrane 13.26.4. Bipolar Ion Exchange Membrane 13.26.5. Mosaic Ion Exchange Membrane 13.27. Italy Ion Exchange Membrane Market Forecast, by Technology 13.27.1. Hydrocarbon Membrane 13.27.2. Perfluorocarbon Membrane 13.27.3. Inorganic Membrane 13.27.4. Composite Membrane 13.27.5. Partially halogenated Membrane 13.28. Italy Ion Exchange Membrane Market Forecast, by Structure 13.28.1. Heterogeneous 13.28.2. Homogenous 13.29. Italy Ion Exchange Membrane Market Forecast, by Application 13.29.1. Electrodialysis 13.29.2. Electrolysis 13.29.3. Chromatographic Separation 13.29.4. Desalination 13.29.5. Waste Water Treatment 13.29.6. Radioactive Liquid Waste Treatment 13.30. Spain Ion Exchange Membrane Market Forecast, by Charge 13.30.1. Cation Exchange Membrane 13.30.2. Anion Exchange Membrane 13.30.3. Amphoteric Ion Exchange Membrane 13.30.4. Bipolar Ion Exchange Membrane 13.30.5. Mosaic Ion Exchange Membrane 13.31. Spain Ion Exchange Membrane Market Forecast, by Technology 13.31.1. Hydrocarbon Membrane 13.31.2. Perfluorocarbon Membrane 13.31.3. Inorganic Membrane 13.31.4. Composite Membrane 13.31.5. Partially halogenated Membrane 13.32. Spain Ion Exchange Membrane Market Forecast, by Structure 13.32.1. Heterogeneous 13.32.2. Homogenous 13.33. Spain Ion Exchange Membrane Market Forecast, by Application 13.33.1. Electrodialysis 13.33.2. Electrolysis 13.33.3. Chromatographic Separation 13.33.4. Desalination 13.33.5. Waste Water Treatment 13.33.6. Radioactive Liquid Waste Treatment 13.34. Rest of Europe Ion Exchange Membrane Market Forecast, by Charge 13.34.1. Cation Exchange Membrane 13.34.2. Anion Exchange Membrane 13.34.3. Amphoteric Ion Exchange Membrane 13.34.4. Bipolar Ion Exchange Membrane 13.34.5. Mosaic Ion Exchange Membrane 13.35. Rest of Europe Ion Exchange Membrane Market Forecast, by Technology 13.35.1. Hydrocarbon Membrane 13.35.2. Perfluorocarbon Membrane 13.35.3. Inorganic Membrane 13.35.4. Composite Membrane 13.35.5. Partially halogenated Membrane 13.36. Rest of Europe Ion Exchange Membrane Market Forecast, by Structure 13.36.1. Heterogeneous 13.36.2. Homogenous 13.37. Rest Of Europe Ion Exchange Membrane Market Forecast, by Application 13.37.1. Electrodialysis 13.37.2. Electrolysis 13.37.3. Chromatographic Separation 13.37.4. Desalination 13.37.5. Waste Water Treatment 13.37.6. Radioactive Liquid Waste Treatment 13.38. Europe Ion Exchange Membrane Market Attractiveness Analysis 13.38.1. By Charge 13.38.2. By Technology 13.38.3. By Structure 13.38.4. By Application 13.39. PEST Analysis 13.40. Key Trends 13.41. Key Developments 14. Asia Pacific Ion Exchange Membrane Market Analysis 14.1. Key Findings 14.2. Asia Pacific Ion Exchange Membrane Market Overview 14.3. Asia Pacific Ion Exchange Membrane Market Value Share Analysis, by Charge 14.4. Asia Pacific Ion Exchange Membrane Market Forecast, by Charge 14.4.1. Cation Exchange Membrane 14.4.2. Anion Exchange Membrane 14.4.3. Amphoteric Ion Exchange Membrane 14.4.4. Bipolar Ion Exchange Membrane 14.4.5. Mosaic Ion Exchange Membrane 14.5. Asia Pacific Ion Exchange Membrane Market Value Share Analysis, by Technology 14.6. Asia Pacific Ion Exchange Membrane Market Forecast, by Technology 14.6.1. Hydrocarbon Membrane 14.6.2. Perfluorocarbon Membrane 14.6.3. Inorganic Membrane 14.6.4. Composite Membrane 14.6.5. Partially halogenated Membrane 14.7. Asia Pacific Ion Exchange Membrane Market Value Share Analysis, by Structure 14.8. Asia Pacific Ion Exchange Membrane Market Forecast, by Structure 14.8.1. Heterogeneous 14.8.2. Homogenous 14.9. Asia Pacific Ion Exchange Membrane Market Value Share Analysis, by Application 14.10. Asia Pacific Ion Exchange Membrane Market Forecast, by Application 14.10.1. Electrodialysis 14.10.2. Electrolysis 14.10.3. Chromatographic Separation 14.10.4. Desalination 14.10.5. Waste Water Treatment 14.10.6. Radioactive Liquid Waste Treatment 14.11. Asia Pacific Ion Exchange Membrane Market Value Share Analysis, by Country 14.12. Asia Pacific Ion Exchange Membrane Market Forecast, by Country 14.12.1. China 14.12.2. India 14.12.3. Japan 14.12.4. ASEAN 14.12.5. Rest of Asia Pacific 14.13. Asia Pacific Ion Exchange Membrane Market Analysis, by Country 14.14. China Ion Exchange Membrane Market Forecast, by Charge 14.14.1. Cation Exchange Membrane 14.14.2. Anion Exchange Membrane 14.14.3. Amphoteric Ion Exchange Membrane 14.14.4. Bipolar Ion Exchange Membrane 14.14.5. Mosaic Ion Exchange Membrane 14.15. China Ion Exchange Membrane Market Forecast, by Technology 14.15.1. Hydrocarbon Membrane 14.15.2. Perfluorocarbon Membrane 14.15.3. Inorganic Membrane 14.15.4. Composite Membrane 14.15.5. Partially halogenated Membrane 14.16. China Ion Exchange Membrane Market Forecast, by Structure 14.16.1. Heterogeneous 14.16.2. Homogenous 14.17. China Ion Exchange Membrane Market Forecast, by Application 14.17.1. Electrodialysis 14.17.2. Electrolysis 14.17.3. Chromatographic Separation 14.17.4. Desalination 14.17.5. Waste Water Treatment 14.17.6. Radioactive Liquid Waste Treatment 14.18. India Ion Exchange Membrane Market Forecast, by Charge 14.18.1. Cation Exchange Membrane 14.18.2. Anion Exchange Membrane 14.18.3. Amphoteric Ion Exchange Membrane 14.18.4. Bipolar Ion Exchange Membrane 14.18.5. Mosaic Ion Exchange Membrane 14.19. India Ion Exchange Membrane Market Forecast, by Technology 14.19.1. Hydrocarbon Membrane 14.19.2. Perfluorocarbon Membrane 14.19.3. Inorganic Membrane 14.19.4. Composite Membrane 14.19.5. Partially halogenated Membrane 14.20. India Ion Exchange Membrane Market Forecast, by Structure 14.20.1. Heterogeneous 14.20.2. Homogenous 14.21. India Ion Exchange Membrane Market Forecast, by Application 14.21.1. Electrodialysis 14.21.2. Electrolysis 14.21.3. Chromatographic Separation 14.21.4. Desalination 14.21.5. Waste Water Treatment 14.21.6. Radioactive Liquid Waste Treatment 14.22. Japan Ion Exchange Membrane Market Forecast, by Charge 14.22.1. Cation Exchange Membrane 14.22.2. Anion Exchange Membrane 14.22.3. Amphoteric Ion Exchange Membrane 14.22.4. Bipolar Ion Exchange Membrane 14.22.5. Mosaic Ion Exchange Membrane 14.23. Japan Ion Exchange Membrane Market Forecast, by Technology 14.23.1. Hydrocarbon Membrane 14.23.2. Perfluorocarbon Membrane 14.23.3. Inorganic Membrane 14.23.4. Composite Membrane 14.23.5. Partially halogenated Membrane 14.24. Japan Ion Exchange Membrane Market Forecast, by Structure 14.24.1. Heterogeneous 14.24.2. Homogenous 14.25. Japan Ion Exchange Membrane Market Forecast, by Application 14.25.1. Electrodialysis 14.25.2. Electrolysis 14.25.3. Chromatographic Separation 14.25.4. Desalination 14.25.5. Waste Water Treatment 14.25.6. Radioactive Liquid Waste Treatment 14.26. ASEAN Ion Exchange Membrane Market Forecast, by Charge 14.26.1. Cation Exchange Membrane 14.26.2. Anion Exchange Membrane 14.26.3. Amphoteric Ion Exchange Membrane 14.26.4. Bipolar Ion Exchange Membrane 14.26.5. Mosaic Ion Exchange Membrane 14.27. ASEAN Ion Exchange Membrane Market Forecast, by Technology 14.27.1. Hydrocarbon Membrane 14.27.2. Perfluorocarbon Membrane 14.27.3. Inorganic Membrane 14.27.4. Composite Membrane 14.27.5. Partially halogenated Membrane 14.28. ASEAN Ion Exchange Membrane Market Forecast, by Structure 14.28.1. Heterogeneous 14.28.2. Homogenous 14.29. ASEAN Ion Exchange Membrane Market Forecast, by Application 14.29.1. Electrodialysis 14.29.2. Electrolysis 14.29.3. Chromatographic Separation 14.29.4. Desalination 14.29.5. Waste Water Treatment 14.29.6. Radioactive Liquid Waste Treatment 14.30. Rest of Asia Pacific Ion Exchange Membrane Market Forecast, by Charge 14.30.1. Cation Exchange Membrane 14.30.2. Anion Exchange Membrane 14.30.3. Amphoteric Ion Exchange Membrane 14.30.4. Bipolar Ion Exchange Membrane 14.30.5. Mosaic Ion Exchange Membrane 14.31. Rest of Asia Pacific Ion Exchange Membrane Market Forecast, by Technology 14.31.1. Hydrocarbon Membrane 14.31.2. Perfluorocarbon Membrane 14.31.3. Inorganic Membrane 14.31.4. Composite Membrane 14.31.5. Partially halogenated Membrane 14.32. Rest of Asia Pacific Ion Exchange Membrane Market Forecast, by Structure 14.32.1. Heterogeneous 14.32.2. Homogenous 14.33. Rest of Asia Pacific Ion Exchange Membrane Market Forecast, by Application 14.33.1. Electrodialysis 14.33.2. Electrolysis 14.33.3. Chromatographic Separation 14.33.4. Desalination 14.33.5. Waste Water Treatment 14.33.6. Radioactive Liquid Waste Treatment 14.34. Asia Pacific Ion Exchange Membrane Market Attractiveness Analysis 14.34.1. By Charge 14.34.2. By Technology 14.34.3. By Structure 14.34.4. By Application 14.35. PEST Analysis 14.36. Key Trends 14.37. Key Developments 15. Middle East & Africa Ion Exchange Membrane Market Analysis 15.1. Key Findings 15.2. Middle East & Africa Ion Exchange Membrane Market Overview 15.3. Middle East & Africa Ion Exchange Membrane Market Value Share Analysis, by Charge 15.4. Middle East & Africa Ion Exchange Membrane Market Forecast, by Charge 15.4.1. Cation Exchange Membrane 15.4.2. Anion Exchange Membrane 15.4.3. Amphoteric Ion Exchange Membrane 15.4.4. Bipolar Ion Exchange Membrane 15.4.5. Mosaic Ion Exchange Membrane 15.5. Middle East & Africa Ion Exchange Membrane Market Value Share Analysis, by Technology 15.6. Middle East & Africa Ion Exchange Membrane Market Forecast, by Technology 15.6.1. Hydrocarbon Membrane 15.6.2. Perfluorocarbon Membrane 15.6.3. Inorganic Membrane 15.6.4. Composite Membrane 15.6.5. Partially halogenated Membrane 15.7. Middle East & Africa Ion Exchange Membrane Market Value Share Analysis, by Structure 15.8. Middle East & Africa Ion Exchange Membrane Market Forecast, by Structure 15.8.1. Heterogeneous 15.8.2. Homogenous 15.9. Middle East & Africa Ion Exchange Membrane Market Value Share Analysis, by Application 15.10. Middle East & Africa Ion Exchange Membrane Market Forecast, by Application 15.10.1. Electrodialysis 15.10.2. Electrolysis 15.10.3. Chromatographic Separation 15.10.4. Desalination 15.10.5. Waste Water Treatment 15.10.6. Radioactive Liquid Waste Treatment 15.11. Middle East & Africa Ion Exchange Membrane Market Value Share Analysis, by Country 15.12. Middle East & Africa Ion Exchange Membrane Market Forecast, by Country 15.12.1. GCC 15.12.2. South Africa 15.12.3. Rest of Middle East & Africa 15.13. Middle East & Africa Ion Exchange Membrane Market Analysis, by Country 15.14. GCC Ion Exchange Membrane Market Forecast, by Charge 15.14.1. Cation Exchange Membrane 15.14.2. Anion Exchange Membrane 15.14.3. Amphoteric Ion Exchange Membrane 15.14.4. Bipolar Ion Exchange Membrane 15.14.5. Mosaic Ion Exchange Membrane 15.15. GCC Ion Exchange Membrane Market Forecast, by Technology 15.15.1. Hydrocarbon Membrane 15.15.2. Perfluorocarbon Membrane 15.15.3. Inorganic Membrane 15.15.4. Composite Membrane 15.15.5. Partially halogenated Membrane 15.16. GCC Ion Exchange Membrane Market Forecast, by Structure 15.16.1. Heterogeneous 15.16.2. Homogenous 15.17. GCC Ion Exchange Membrane Market Forecast, by Application 15.17.1. Electrodialysis 15.17.2. Electrolysis 15.17.3. Chromatographic Separation 15.17.4. Desalination 15.17.5. Waste Water Treatment 15.17.6. Radioactive Liquid Waste Treatment 15.18. South Africa Ion Exchange Membrane Market Forecast, by Charge 15.18.1. Cation Exchange Membrane 15.18.2. Anion Exchange Membrane 15.18.3. Amphoteric Ion Exchange Membrane 15.18.4. Bipolar Ion Exchange Membrane 15.18.5. Mosaic Ion Exchange Membrane 15.19. South Africa Ion Exchange Membrane Market Forecast, by Technology 15.19.1. Hydrocarbon Membrane 15.19.2. Perfluorocarbon Membrane 15.19.3. Inorganic Membrane 15.19.4. Composite Membrane 15.19.5. Partially halogenated Membrane 15.20. South Africa Ion Exchange Membrane Market Forecast, by Structure 15.20.1. Heterogeneous 15.20.2. Homogenous 15.21. South Africa Ion Exchange Membrane Market Forecast, by Application 15.21.1. Electrodialysis 15.21.2. Electrolysis 15.21.3. Chromatographic Separation 15.21.4. Desalination 15.21.5. Waste Water Treatment 15.21.6. Radioactive Liquid Waste Treatment 15.22. Rest of Middle East & Africa Ion Exchange Membrane Market Forecast, by Charge 15.22.1. Cation Exchange Membrane 15.22.2. Anion Exchange Membrane 15.22.3. Amphoteric Ion Exchange Membrane 15.22.4. Bipolar Ion Exchange Membrane 15.22.5. Mosaic Ion Exchange Membrane 15.23. Rest of Middle East & Africa Ion Exchange Membrane Market Forecast, by Technology 15.23.1. Hydrocarbon Membrane 15.23.2. Perfluorocarbon Membrane 15.23.3. Inorganic Membrane 15.23.4. Composite Membrane 15.23.5. Partially halogenated Membrane 15.24. Rest of Middle East & Africa Ion Exchange Membrane Market Forecast, by Structure 15.24.1. Heterogeneous 15.24.2. Homogenous 15.25. Rest of Middle East & Africa Ion Exchange Membrane Market Forecast, by Application 15.25.1. Electrodialysis 15.25.2. Electrolysis 15.25.3. Chromatographic Separation 15.25.4. Desalination 15.25.5. Waste Water Treatment 15.25.6. Radioactive Liquid Waste Treatment 15.26. Middle East & Africa Ion Exchange Membrane Market Attractiveness Analysis 15.26.1. By Charge 15.26.2. By Technology 15.26.3. By Structure 15.26.4. By Application 15.27. PEST Analysis 15.28. Key Trends 15.29. Key Developments 16. South America Ion Exchange Membrane Market Analysis 16.1. Key Findings 16.2. South America Ion Exchange Membrane Market Overview 16.3. South America Ion Exchange Membrane Market Value Share Analysis, by Charge 16.4. South America Ion Exchange Membrane Market Forecast, by Charge 16.4.1. Cation Exchange Membrane 16.4.2. Anion Exchange Membrane 16.4.3. Amphoteric Ion Exchange Membrane 16.4.4. Bipolar Ion Exchange Membrane 16.4.5. Mosaic Ion Exchange Membrane 16.5. South America Ion Exchange Membrane Market Value Share Analysis, by Technology 16.6. South America Ion Exchange Membrane Market Forecast, by Technology 16.6.1. Hydrocarbon Membrane 16.6.2. Perfluorocarbon Membrane 16.6.3. Inorganic Membrane 16.6.4. Composite Membrane 16.6.5. Partially halogenated Membrane 16.7. South America Ion Exchange Membrane Market Value Share Analysis, by Structure 16.8. South America Ion Exchange Membrane Market Forecast, by Structure 16.8.1. Heterogeneous 16.8.2. Homogenous 16.9. South America Ion Exchange Membrane Market Value Share Analysis, by Application 16.10. South America Ion Exchange Membrane Market Forecast, by Application 16.10.1. Electrodialysis 16.10.2. Electrolysis 16.10.3. Chromatographic Separation 16.10.4. Desalination 16.10.5. Waste Water Treatment 16.10.6. Radioactive Liquid Waste Treatment 16.11. South America Ion Exchange Membrane Market Value Share Analysis, by Country 16.12. South America Ion Exchange Membrane Market Forecast, by Country 16.12.1. Brazil 16.12.2. Mexico 16.12.3. Rest of South America 16.13. South America Ion Exchange Membrane Market Analysis, by Country 16.14. Brazil Ion Exchange Membrane Market Forecast, by Charge 16.14.1. Cation Exchange Membrane 16.14.2. Anion Exchange Membrane 16.14.3. Amphoteric Ion Exchange Membrane 16.14.4. Bipolar Ion Exchange Membrane 16.14.5. Mosaic Ion Exchange Membrane 16.15. Brazil Ion Exchange Membrane Market Forecast, by Technology 16.15.1. Hydrocarbon Membrane 16.15.2. Perfluorocarbon Membrane 16.15.3. Inorganic Membrane 16.15.4. Composite Membrane 16.15.5. Partially halogenated Membrane 16.16. Brazil Ion Exchange Membrane Market Forecast, by Structure 16.16.1. Heterogeneous 16.16.2. Homogenous 16.17. Brazil Ion Exchange Membrane Market Forecast, by Application 16.17.1. Electrodialysis 16.17.2. Electrolysis 16.17.3. Chromatographic Separation 16.17.4. Desalination 16.17.5. Waste Water Treatment 16.17.6. Radioactive Liquid Waste Treatment 16.18. Mexico Ion Exchange Membrane Market Forecast, by Charge 16.18.1. Cation Exchange Membrane 16.18.2. Anion Exchange Membrane 16.18.3. Amphoteric Ion Exchange Membrane 16.18.4. Bipolar Ion Exchange Membrane 16.18.5. Mosaic Ion Exchange Membrane 16.19. Mexico Ion Exchange Membrane Market Forecast, by Technology 16.19.1. Hydrocarbon Membrane 16.19.2. Perfluorocarbon Membrane 16.19.3. Inorganic Membrane 16.19.4. Composite Membrane 16.19.5. Partially halogenated Membrane 16.20. Mexico Ion Exchange Membrane Market Forecast, by Structure 16.20.1. Heterogeneous 16.20.2. Homogenous 16.21. Mexico Ion Exchange Membrane Market Forecast, by Application 16.21.1. Electrodialysis 16.21.2. Electrolysis 16.21.3. Chromatographic Separation 16.21.4. Desalination 16.21.5. Waste Water Treatment 16.21.6. Radioactive Liquid Waste Treatment 16.22. Rest of South America Ion Exchange Membrane Market Forecast, by Charge 16.22.1. Cation Exchange Membrane 16.22.2. Anion Exchange Membrane 16.22.3. Amphoteric Ion Exchange Membrane 16.22.4. Bipolar Ion Exchange Membrane 16.22.5. Mosaic Ion Exchange Membrane 16.23. Rest of South America Ion Exchange Membrane Market Forecast, by Technology 16.23.1. Hydrocarbon Membrane 16.23.2. Perfluorocarbon Membrane 16.23.3. Inorganic Membrane 16.23.4. Composite Membrane 16.23.5. Partially halogenated Membrane 16.24. Rest of South America Ion Exchange Membrane Market Forecast, by Structure 16.24.1. Heterogeneous 16.24.2. Homogenous 16.25. Rest of South America Ion Exchange Membrane Market Forecast, by Application 16.25.1. Electrodialysis 16.25.2. Electrolysis 16.25.3. Chromatographic Separation 16.25.4. Desalination 16.25.5. Waste Water Treatment 16.25.6. Radioactive Liquid Waste Treatment 16.26. South America Ion Exchange Membrane Market Attractiveness Analysis 16.26.1. By Charge 16.26.2. By Technology 16.26.3. By Structure 16.26.4. By Application 16.27. PEST Analysis 16.28. Key Trends 16.29. Key Developments 17. Company Profiles 17.1. Market Share Analysis, by Company 17.2. Competition Matrix 17.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 17.2.2. New Product Launches and Product Enhancements 17.2.3. Market Consolidation 17.2.3.1. M&A by Regions, Investment and Applications 17.2.3.2. M&A Key Players, Forward Integration and Backward Integration 17.3. Company Profiles: Key Players 17.3.1. The Dow Chemical Company 17.3.1.1. Company Overview 17.3.1.2. Financial Overview 17.3.1.3. Product Portfolio 17.3.1.4. Business Strategy 17.3.1.5. Recent Developments 17.3.1.6. Company Footprint 17.3.2. Lanxess Ag 17.3.3. 3M 17.3.4. Ion Exchange Ltd. 17.3.5. ResinTech Inc. 17.3.6. General Electric Company 17.3.7. Hyflux Ltd 17.3.8. Parker-Hannifin Corporation 17.3.9. Axeon Water Technologies 17.3.10. GEA Filtration 17.3.11. AGC ENGINEERING Co. Ltd 17.3.12. Ionomr Innovations 17.3.13. Dioxide Materials 17.3.14. DuPont de Nemours, Inc. 17.3.15. Evergreen Technologies Pvt Ltd 17.3.16. Fujifilm Manufacturing Europe BV 17.3.17. Saltworks Technologies Inc. 17.3.18. Liaoning Yichen Membrane Technology Co. Ltd 17.3.19. Membranes International Inc. 17.3.20. Merck KGaA 17.3.21. Origin Water Technology Co., Ltd 17.3.22. Duraflow LLC 17.3.23. Porex Corp 17.3.24. Microdyn-nadir GmbH 17.3.25. Jiuwu Hi-Tech 17.3.26. Atech Innovations GmbH 17.3.27. FuMa-Tech GmbH 17.3.28. Golden Energy Fuel Cell 17.3.29. Dalian Institute of Chemical Physics 18. Primary Key Insights

About This Report

Report ID 13126
Category Material & Chemical
Published Date
No of Pages 200
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