Global Ion Exchange Membrane Market – Global Industry Analysis and Forecast (2018-2026) By Charge, By Material, By Structure, By Application, By Region.

Global Ion Exchange Membrane Market – Global Industry Analysis and Forecast (2018-2026) By Charge, By Material, By Structure, By Application, By Region.

Market Scenario

Global Ion Exchange Membrane Market is estimated to grow at 4 % CAGR during forecast. Global ion exchange membrane market is segmented by charge, by material, by application and by region. Based on charge ion exchange membrane market is segmented into hydrocarbon, perfluorocarbon, inorganic, composite, partially, and halogenated. In terms of charge applied ion exchange membrane market can be categorized into cation, anion, amphoteric, bipolar ion, and mosaic. Inorganic materials includes silica, various oxides, carbon, and ceramic. Electrodialysis, electrolysis, chromatographic separation, desalination, waste water treatment, and radioactive liquid waste treatment are application segment of ion exchange membrane market. In terms of structure ion exchange market can be categorized into heterogeneous and homogenous membrane. Geographically ion exchange membrane market can be segmented into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. Ion exchange membrane technology plays an important role due to various benefits such as low maintenance cost, eco-friendliness, and high energy efficiency. Recent projects to provide clean and pure water worldwide is fuelling the use of ion exchange membrane. Awareness for water and wastewater treatment of polluted water also effluents from various industries and need of selective separation to meet water quality standards. Also the sustainability policies related to the environment and stringent government regulations supports the market growth. However, high capital requirement hampers this growth. Growth in demand from emerging nations provides an opportunity for market growth. The major growth challenge faced by this market is increasing the membrane lifespan. Global Ion Exchange Membrane Market Cation and anion exchange membrane are the commonly used ion exchange membrane, as these are the basic charged ion exchange membranes available. Demand for amphoteric, bipolar and mosaic ion exchange membrane is expected to grow at slow pace. Amphoteric, bipolar and mosaic ion exchange membrane are a combination of cation and anion exchange membrane. Inorganic membrane is expected to register the highest growth. Inorganic structure is more stable as compared to an organic structure in terms of iodizing agents and radiations offers high selective separation of gases such as hydrogen and oxygen. Inorganic ion exchange membrane is also known as hybrid inorganic membranes. Inorganic membrane are used in industrial gas processing segment. Demand for hydrocarbon membrane is expected to raise during the forecast period due to its property to act as a chemical resistant barrier to a variety range of pollutants specially hydrocarbons. Hydrocarbon membrane is also used for separating other pollutants such as industrial chemicals, toxic waste, natural & radioactive gases and others. Inorganic ion exchange membrane has a very small quantity of organic polymers as binders. Awareness about clean drinking water across globe to take certain measure to ensure the supply of clean water. Waste water treatment accounted for largest share of the ion exchange membrane market and will continue too due to rising population and growing industries. Reuse of water produced from various industries is becoming a highly preferred option to provide water across regions, the quantity of wastewater produced and the pollution load is continuously rising the use of new technologies and methods are being developed to treat wastewater and make it useful for various applications. The usage of ion exchange membrane in electrodialysis and desalination is rising with speed. Homogeneous membranes are expensive and have a smooth surface and thinner composition with lower resistance. Heterogeneous membrane is the commonly used ion exchange membrane due to its cost and properties. Heterogeneous membranes are preferred owing to their low costs, thicker composition with higher resistance, and rough surfaces. Asia Pacific commands the ion exchange membrane market due to the increasing demand for ion exchange membrane in industries such as pharmaceuticals, healthcare, electronics, power generation, food & beverages and others also rise in population is reason that is predicted to propel the ion exchange membrane market in Asia Pacific. China was the major producer and consumer of ion exchange membrane in the world. Europe followed North America and Asia Pacific in terms of use of ion exchange membrane. Latin America is projected to be a beneficial market for ion exchange membrane. Expansion of electronics and food & beverages industries is projected to propel the demand for ion exchange membrane in Latin America during the forecast period. 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, Merck KGaA, Origin Water, Duraflow, Porex, Microdyn-nadir are some of the keyplayer of ion exchange membrane market.

Scope of the Global Ion Exchange Membrane Market:

Global Ion Exchange Membrane Market by Charge:

• Cation • Anion • Amphoteric • Bipolar Ion • Others

Global Ion Exchange Membrane Market by Material:

• Hydrocarbon • Perfluorocarbon • Inorganic • Composite • Partially • Halogenated

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

Key Players Analyzed in the Global Ion Exchange Membrane Market:

• 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 • Merck KGaA • Origin Water • Duraflow • Porex • Microdyn-nadir • Shu Li • KAHao • Ai Yu Qi • Jiuwu Hi-Tech • Atech • FuMa-Tech • Golden Energy Fuel Cell • Dalian Institute of Chemical Physics Green Petroleum Coke Market

Table of Contents

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 Used 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 Value (US$ Bn) 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. 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 Material 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Ion Exchange Membrane Market Value Share Analysis, by Material 8.4. Global Ion Exchange Membrane Market Size (US$ Bn) Forecast, by Material 8.5. Global Ion Exchange Membrane Market Analysis, by Material 8.6. Global Ion Exchange Membrane Market Attractiveness Analysis, by Material 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. Key Findings 11.2. Global Ion Exchange Membrane Market Value Share Analysis, by Region 11.3. Global Ion Exchange Membrane Market Size (US$ Bn) Forecast, by Region 11.4. 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 12.4.2. Anion 12.4.3. Amphoteric 12.4.4. Bipolar Ion 12.4.5. Others 12.5. North America Ion Exchange Membrane Market Value Share Analysis, by Material 12.6. North America Ion Exchange Membrane Market Forecast, by Material 12.6.1. Hydrocarbon 12.6.2. Perfluorocarbon 12.6.3. Inorganic 12.6.4. Composite 12.6.5. Partially 12.6.6. Halogenated 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 12.10.7. Others 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 12.14.2. Anion 12.14.3. Amphoteric 12.14.4. Bipolar Ion 12.14.5. Others 12.15. U.S. Ion Exchange Membrane Market Forecast, by Material 12.15.1. Hydrocarbon 12.15.2. Perfluorocarbon 12.15.3. Inorganic 12.15.4. Composite 12.15.5. Partially 12.15.6. Halogenated 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 12.17.7. Others 12.18. Canada Ion Exchange Membrane Market Forecast, by Charge 12.18.1. Cation 12.18.2. Anion 12.18.3. Amphoteric 12.18.4. Bipolar Ion 12.18.5. Others 12.19. Canada Ion Exchange Membrane Market Forecast, by Material 12.19.1. Hydrocarbon 12.19.2. Perfluorocarbon 12.19.3. Inorganic 12.19.4. Composite 12.19.5. Partially 12.19.6. Halogenated 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 12.21.7. Others 12.22. North America Ion Exchange Membrane Market Attractiveness Analysis 12.22.1. By Charge 12.22.2. By Material 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 13.4.2. Anion 13.4.3. Amphoteric 13.4.4. Bipolar Ion 13.4.5. Others 13.5. Europe Ion Exchange Membrane Market Value Share Analysis, by Material 13.6. Europe Ion Exchange Membrane Market Forecast, by Material 13.6.1. Hydrocarbon 13.6.2. Perfluorocarbon 13.6.3. Inorganic 13.6.4. Composite 13.6.5. Partially 13.6.6. Halogenated 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 13.10.7. Others 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/ Sub-region 13.14. Germany Ion Exchange Membrane Market Forecast, by Charge 13.14.1. Cation 13.14.2. Anion 13.14.3. Amphoteric 13.14.4. Bipolar Ion 13.14.5. Others 13.15. Germany Ion Exchange Membrane Market Forecast, by Material 13.15.1. Hydrocarbon 13.15.2. Perfluorocarbon 13.15.3. Inorganic 13.15.4. Composite 13.15.5. Partially 13.15.6. Halogenated 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 13.17.7. Others 13.18. U.K. Ion Exchange Membrane Market Forecast, by Charge 13.18.1. Cation 13.18.2. Anion 13.18.3. Amphoteric 13.18.4. Bipolar Ion 13.18.5. Others 13.19. U.K. Ion Exchange Membrane Market Forecast, by Material 13.19.1. Hydrocarbon 13.19.2. Perfluorocarbon 13.19.3. Inorganic 13.19.4. Composite 13.19.5. Partially 13.19.6. Halogenated 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 13.21.7. Others 13.22. France Ion Exchange Membrane Market Forecast, by Charge 13.22.1. Cation 13.22.2. Anion 13.22.3. Amphoteric 13.22.4. Bipolar Ion 13.22.5. Others 13.23. France Ion Exchange Membrane Market Forecast, by Material 13.23.1. Hydrocarbon 13.23.2. Perfluorocarbon 13.23.3. Inorganic 13.23.4. Composite 13.23.5. Partially 13.23.6. Halogenated 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 13.25.7. Others 13.26. Italy Ion Exchange Membrane Market Forecast, by Charge 13.26.1. Cation 13.26.2. Anion 13.26.3. Amphoteric 13.26.4. Bipolar Ion 13.26.5. Others 13.27. Italy Ion Exchange Membrane Market Forecast, by Material 13.27.1. Hydrocarbon 13.27.2. Perfluorocarbon 13.27.3. Inorganic 13.27.4. Composite 13.27.5. Partially 13.27.6. Halogenated 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 13.29.7. Others 13.30. Spain Ion Exchange Membrane Market Forecast, by Charge 13.30.1. Cation 13.30.2. Anion 13.30.3. Amphoteric 13.30.4. Bipolar Ion 13.30.5. Others 13.31. Spain Ion Exchange Membrane Market Forecast, by Material 13.31.1. Hydrocarbon 13.31.2. Perfluorocarbon 13.31.3. Inorganic 13.31.4. Composite 13.31.5. Partially 13.31.6. Halogenated 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 13.33.7. Others 13.34. Res Rest Of Europe of Ion Exchange Membrane Market Forecast, by Charge 13.34.1. Cation 13.34.2. Anion 13.34.3. Amphoteric 13.34.4. Bipolar Ion 13.34.5. Others 13.35. Rest Of Europe of Ion Exchange Membrane Market Forecast, by Material 13.35.1. Hydrocarbon 13.35.2. Perfluorocarbon 13.35.3. Inorganic 13.35.4. Composite 13.35.5. Partially 13.35.6. Halogenated 13.36. Rest Of Europe of 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 13.37.7. Others 13.38. Europe Ion Exchange Membrane Market Attractiveness Analysis 13.38.1. By Charge 13.38.2. By Material 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 14.4.2. Anion 14.4.3. Amphoteric 14.4.4. Bipolar Ion 14.4.5. Others 14.5. Asia Pacific Ion Exchange Membrane Market Value Share Analysis, by Material 14.6. Asia Pacific Ion Exchange Membrane Market Forecast, by Material 14.6.1. Hydrocarbon 14.6.2. Perfluorocarbon 14.6.3. Inorganic 14.6.4. Composite 14.6.5. Partially 14.6.6. Halogenated 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 14.10.7. Others 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/ Sub-region 14.14. China Ion Exchange Membrane Market Forecast, by Charge 14.14.1. Cation 14.14.2. Anion 14.14.3. Amphoteric 14.14.4. Bipolar Ion 14.14.5. Others 14.15. China Ion Exchange Membrane Market Forecast, by Material 14.15.1. Hydrocarbon 14.15.2. Perfluorocarbon 14.15.3. Inorganic 14.15.4. Composite 14.15.5. Partially 14.15.6. Halogenated 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 14.17.7. Others 14.18. India Ion Exchange Membrane Market Forecast, by Charge 14.18.1. Cation 14.18.2. Anion 14.18.3. Amphoteric 14.18.4. Bipolar Ion 14.18.5. Others 14.19. India Ion Exchange Membrane Market Forecast, by Material 14.19.1. Hydrocarbon 14.19.2. Perfluorocarbon 14.19.3. Inorganic 14.19.4. Composite 14.19.5. Partially 14.19.6. Halogenated 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 14.21.7. Others 14.22. Japan Ion Exchange Membrane Market Forecast, by Charge 14.22.1. Cation 14.22.2. Anion 14.22.3. Amphoteric 14.22.4. Bipolar Ion 14.22.5. Others 14.23. Japan Ion Exchange Membrane Market Forecast, by Material 14.23.1. Hydrocarbon 14.23.2. Perfluorocarbon 14.23.3. Inorganic 14.23.4. Composite 14.23.5. Partially 14.23.6. Halogenated 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 14.25.7. Others 14.26. ASEAN Ion Exchange Membrane Market Forecast, by Charge 14.26.1. Cation 14.26.2. Anion 14.26.3. Amphoteric 14.26.4. Bipolar Ion 14.26.5. Others 14.27. ASEAN Ion Exchange Membrane Market Forecast, by Material 14.27.1. Hydrocarbon 14.27.2. Perfluorocarbon 14.27.3. Inorganic 14.27.4. Composite 14.27.5. Partially 14.27.6. Halogenated 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 14.29.7. Others 14.30. Rest Asia Pacific of Ion Exchange Membrane Market Forecast, by Charge 14.30.1. Cation 14.30.2. Anion 14.30.3. Amphoteric 14.30.4. Bipolar Ion 14.30.5. Others 14.31. Rest Asia Pacific of Ion Exchange Membrane Market Forecast, by Material 14.31.1. Hydrocarbon 14.31.2. Perfluorocarbon 14.31.3. Inorganic 14.31.4. Composite 14.31.5. Partially 14.31.6. Halogenated 14.32. Rest Asia Pacific of Ion Exchange Membrane Market Forecast, by Structure 14.32.1. Heterogeneous 14.32.2. Homogenous 14.33. Rest Asia Pacific of 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 14.33.7. Others 14.34. Asia Pacific Ion Exchange Membrane Market Attractiveness Analysis 14.34.1. By Charge 14.34.2. By Material 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 15.4.2. Anion 15.4.3. Amphoteric 15.4.4. Bipolar Ion 15.4.5. Others 15.5. Middle East & Africa Ion Exchange Membrane Market Value Share Analysis, by Charge 15.6. Middle East & Africa Ion Exchange Membrane Market Forecast, by Material 15.6.1. Hydrocarbon 15.6.2. Perfluorocarbon 15.6.3. Inorganic 15.6.4. Composite 15.6.5. Partially 15.6.6. Halogenated 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 15.10.7. Others 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/ Sub-region 15.14. GCC Ion Exchange Membrane Market Forecast, by Charge 15.14.1. Cation 15.14.2. Anion 15.14.3. Amphoteric 15.14.4. Bipolar Ion 15.14.5. Others 15.15. GCC Ion Exchange Membrane Market Forecast, by Material 15.15.1. Hydrocarbon 15.15.2. Perfluorocarbon 15.15.3. Inorganic 15.15.4. Composite 15.15.5. Partially 15.15.6. Halogenated 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 15.17.7. Others 15.18. South Africa Ion Exchange Membrane Market Forecast, by Charge 15.18.1. Cation 15.18.2. Anion 15.18.3. Amphoteric 15.18.4. Bipolar Ion 15.18.5. Others 15.19. South Africa Ion Exchange Membrane Market Forecast, by Material 15.19.1. Hydrocarbon 15.19.2. Perfluorocarbon 15.19.3. Inorganic 15.19.4. Composite 15.19.5. Partially 15.19.6. Halogenated 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 15.21.7. Others 15.22. Rest of Ion Exchange Membrane Market Forecast, by Charge 15.22.1. Cation 15.22.2. Anion 15.22.3. Amphoteric 15.22.4. Bipolar Ion 15.22.5. Others 15.23. Rest Middle East & Africa Ion Exchange Membrane Market Forecast, by Material 15.23.1. Hydrocarbon 15.23.2. Perfluorocarbon 15.23.3. Inorganic 15.23.4. Composite 15.23.5. Partially 15.23.6. Halogenated 15.24. Rest Middle East & Africa of Ion Exchange Membrane Market Forecast, by Structure 15.24.1. Heterogeneous 15.24.2. Homogenous 15.25. Rest 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 15.25.7. Others 15.26. Middle East & Africa Ion Exchange Membrane Market Attractiveness Analysis 15.26.1. By Charge 15.26.2. By Material 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 16.4.2. Anion 16.4.3. Amphoteric 16.4.4. Bipolar Ion 16.4.5. Others 16.5. South America Ion Exchange Membrane Market Value Share Analysis, by Charge 16.6. South America Ion Exchange Membrane Market Forecast, by Material 16.6.1. Hydrocarbon 16.6.2. Perfluorocarbon 16.6.3. Inorganic 16.6.4. Composite 16.6.5. Partially 16.6.6. Halogenated 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 16.10.7. Others 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/ Sub-region 16.14. Brazil Ion Exchange Membrane Market Forecast, by Charge 16.14.1. Cation 16.14.2. Anion 16.14.3. Amphoteric 16.14.4. Bipolar Ion 16.14.5. Others 16.15. Brazil Ion Exchange Membrane Market Forecast, by Material 16.15.1. Hydrocarbon 16.15.2. Perfluorocarbon 16.15.3. Inorganic 16.15.4. Composite 16.15.5. Partially 16.15.6. Halogenated 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 16.17.7. Others 16.18. Mexico Ion Exchange Membrane Market Forecast, by Charge 16.18.1. Cation 16.18.2. Anion 16.18.3. Amphoteric 16.18.4. Bipolar Ion 16.18.5. Others 16.19. Mexico Ion Exchange Membrane Market Forecast, by Material 16.19.1. Hydrocarbon 16.19.2. Perfluorocarbon 16.19.3. Inorganic 16.19.4. Composite 16.19.5. Partially 16.19.6. Halogenated 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 16.21.7. Others 16.22. Rest South America Ion Exchange Membrane Market Forecast, by Charge 16.22.1. Cation 16.22.2. Anion 16.22.3. Amphoteric 16.22.4. Bipolar Ion 16.22.5. Others 16.23. Rest South America Ion Exchange Membrane Market Forecast, by Material 16.23.1. Hydrocarbon 16.23.2. Perfluorocarbon 16.23.3. Inorganic 16.23.4. Composite 16.23.5. Partially 16.23.6. Halogenated 16.24. Rest South America Ion Exchange Membrane Market Forecast, by Structure 16.24.1. Heterogeneous 16.24.2. Homogenous 16.25. Rest 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 16.25.7. Others 16.26. South America Ion Exchange Membrane Market Attractiveness Analysis 16.26.1. By Charge 16.26.2. By Material 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, Application 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 Application 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. Manufacturing 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. Merck KGaA 17.3.12. Origin Water 17.3.13. Duraflow 17.3.14. Porex 17.3.15. Microdyn-nadir 17.3.16. Shu Li 17.3.17. KAHao 17.3.18. Ai Yu Qi 17.3.19. Jiuwu Hi-Tech 17.3.20. Atech 17.3.21. FuMa-Tech 17.3.22. Golden Energy Fuel Cell 17.3.23. Dalian Institute of Chemical Physics 18. Primary Key Insights

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