1. The use of our Proton exchange membrane materials helps reduce environmental pollution and meets the current needs of sustainable development and green energy. 2. The Proton exchange membrane materials we produce are highly selective and can effectively prevent the penetration of vanadium ions. 3. The Proton exchange membrane materials we produce reduce costs by optimizing production processes and material selection.

1. The polymer particles in our Polymer dispersion admixtures dispersions are usually nanoscale (<100 nm), which helps to form a uniform coating and improve the performance of the membrane. 2. Our Aqueous polymer dispersion does not contain volatile organic compounds (VOCs), is environmentally friendly, and meets modern green environmental protection requirements. 3. Our Polymer dispersion admixtures is suitable for a variety of applications, including fuel cells, electrolyzers, sensors, coating materials, and catalyst supports.

1. The Polymer based admixtures we produce has excellent proton conductivity properties and can significantly improve the efficiency of equipment such as batteries and electrolyzers. 2. The Polymer based admixtures we produce is suitable for use in harsh chemical environments. 3. The Polymer based admixtures we produce can remain stable under high temperature conditions and is suitable for a wide operating temperature range, usually between -20℃ and 200℃.

1. The particle size of Polymer dispersion admixtures we produce is < 100 nm, ensuring the uniformity and stability of the dispersion. 2. The Aqueous polymer dispersion we produce has high purity and low impurity content, suitable for high-performance applications. 3. The Perfluorosulfonic acid polymer dispersion we produce can be used in the preparation of high-efficiency catalysts to improve the efficiency and stability of catalytic reactions.

1. Our liquid dispersion polymers are usually milky white or transparent liquids. 2. Our liquid dispersion polymers provide excellent chemical resistance and thermal stability. 3. Our Polyolefin dispersionss can be used in gas sensors and humidity sensors to improve response speed and sensitivity.

1. The Fuel Cell Membranes we produce can efficiently conduct protons, reduce the internal resistance of the battery, and improve the efficiency and performance of the battery. 2. The Battery exchange membranes we produce have stable electrochemical properties during the operation of the fuel cell, ensuring the long-term reliability of the battery. 3. The materials of the Polymer electrolyte membrane we produce are durable and have a long service life, reducing maintenance and replacement costs.