Separation Film Materials

CD BioSustainable-Advanced Materials has been known as a preeminent supplier of advanced materials, including the design and fabrication of separation membrane materials (SMMs). Due to innovative material formulations and meticulous preparation processes, our separation membranes possess high durability, excellent separation effectiveness, and are contamination resistant. Furthermore, they are widely applicable for water treatment, biomedicine, food and beverage, chemicals, environmental protection, and new energy.

Advanced Separation Solutions - Empowering a Cleaner Future

The SMMs today are developed towards meeting heightened industrial needs and addressing sustainability objectives through high performance, multifunctionality, and integration of smart technologies. The following key trends are covered by our products:

High Performance

High selectivity & high flux
Contamination resistance & long life

Intelligent

Smart response membranes
Internet of things (IoT) integration

Green and Sustainable

Bio-based & biodegradable materials
Low energy processes

Multifunctional Integrations

Catalytic-separation integration
Energy-water cogeneration

Our Products

Covalent Organic Frameworks (COFs) Membranes

We manufacture covalent organic frameworks (COFs) membranes, which due to their highly ordered porous structures and designable chemical functionalities are efficient for gas separation, solvent purification, and molecular sieving, as well as selective separation.

Aquaporin Bionic Membrane (AQPs)

Our AQP bionic membranes replicate the uniquely biological mechanisms of cellular water channel proteins, yielding ultra-high water flux and exemplary salt retention, which advances desalination and wastewater treatment technologies.

Oriented Carbon Nanotube (CNT)-based Membranes

Directional carbon nanotube-based membranes take advantage of the electrical conductivity, strength, and nanoscale channels of carbon nanotubes for efficient material separation and ion transport, enabling pioneering use in energy storage, electrodialysis, high-precision filtration, and other advanced technologies.

Porous Graphene Membranes (NPGs)

The two-dimensional nanostructure of graphene coupled with high specific surface area, as well as precisely controlled porosity, enable superior gas separation performance and chemical stability in porous graphene membranes, thus making them useful for advanced applications in gas separation and sensing.

Thermal Re-Entrainment Gas Separation Membranes (TR Membranes)

The Thermal Rearrangement (TR) membranes utilize high-temperature molecular rearrangement technology to construct a dense, stable separation layer, allowing for selective gas separation. It has an outstanding ability to separate gas molecules, particularly in hydrogen purification and carbon dioxide capture.

Applications

Water Treatment: The application of membrane technologies in the treatment of water is including purification of drinking water, industrial water treatment, desalination of seawater and brackish water, as well as the reclamation of wastewater.
Food and Beverage: In the food sector, separation membranes have important applications in concentration of juices, processes in dairy industry, and clarification of beer which has also enhanced product and process quality.
Biomedical: Separation membrane technology finds application in bio-medicine in the processes of drug separation, purification, and concentration to maintain the integrity and safety of the products.
Chemical & Energy: In the chemical industry, separation membranes are applied in the processes of separating gases and recovering solvents, which results in lower operational costs and enhanced productivity.
New Energy: In the field of new energy, separation membranes are used in proton exchange membranes for fuel cells and encapsulation materials for solar cells.

CD BioSustainable-Advanced Materials has an R&D team and production facilities that are second to none and enables the customization of separating membrane materials based on client needs while maximizing performance and reliability. Innovation drives us to improve separative membrane technologies and offer clients advanced solutions that are cost-effective, efficient, and environmentally responsible. Feel free to contact us for more product information.

For Research or Industrial Raw Materials, Not For Personal Medical Use!