Our companies synthesize MXene and MAX-phase materials for more than 300 universities, research laboratories and  companies from different countries worldwide within joint R&D projects and customized orders.  We are group of companies with offices in Ukraine, Poland and USA. Please send all your enquiries and contact us for your orders by e-mail: sales@mxenenanotech.com

Due to many years of successful cooperation our company is official MXene licensed partner of Drexel University, USA, the initial inventor of these materials, allowing us manufacture MXenes and MXene products in different forms (for various applications) for research and educational purposes and supply them worldwide.

MXenes 

MXene Nano Tech company provides synthesis of MXenes  Ti₃C_{2 ,} Ti₃CN, V2C, Ti₂C and Nb₂C  (delaminated, multilayered), MXenes in aqueous media and different solvents, specific surface functionalisation and customizable flake size. MXenes are also available on specific customized orders. All available MXene materials and MAX phase powders you can buy in SALES menu section.

MXene represents a novel 2D material characterized by a unique blend of properties including electrical and metallic conductivity, hydrophilicity, biocompatibility, large surface area, tunable size, diverse surface chemistry, flexibility, and a layered structure  MXene solutions with different metal compositions:MXene materials can be produced and supplied in the following forms:

• MXene paste (aqueous solutions or in organic solvents), delaminated, multilayered
• MXene powder with a particle size distribution range from hundreds of nm up to tens of µm
• MXene coating – thin film deposited on a substrate
• MXene freestanding film (3-100 microns), can be used as electrodes or membrane
• MXene colloidal solution of delaminated single-layer MXene sheets
• Freestanding cold-pressed discs

MXenes have shown promising potential across various applications due to their exceptional properties. Some of the key MXene applications include:

1. Energy Storage: MXenes are used in supercapacitors and batteries due to their high electrical conductivity and large surface area, which enhance charge storage capacity and efficiency.
2. Electromagnetic Shielding: Their high conductivity makes MXenes effective in shielding against electromagnetic interference (EMI), crucial in electronic devices and aerospace applications.
3. Catalysis: MXenes exhibit catalytic properties useful in water splitting, hydrogen evolution reactions, and other chemical processes due to their unique surface chemistry and active sites.
4. Water Purification: MXenes’ hydrophilic nature and large surface area enable efficient water filtration and desalination processes, addressing clean water challenges.
5. Biomedical Applications: MXenes’ biocompatibility and surface chemistry make them suitable for biosensors, drug delivery systems, and tissue engineering applications.
6. Flexible Electronics: MXenes’ flexibility and conductivity make them ideal for use in flexible and wearable electronics, enabling the development of next-generation devices.
7. Gas Sensing: MXenes’ surface chemistry and conductivity properties enable sensitive and selective detection of gases, applicable in environmental monitoring and safety.