PUBLIC INFORMATION

NanoCarbonTech (NCT) is an EU R&D company in Poland with a legal connection to the Materials Research Center (MRC) and Carbon-Ukraine (Y-Carbon Ltd.) established in Ukraine. With the experience in materials science NanoCarbonTech is involved in manufacturing of MAX-phases, MXenes and related products for research purposes. NCT team provides the expertise in materials science and engineering to synthesize MAX phases and 2D MXenes for different application.
NanoCarbonTech provides experimental synthesis of different materials for research needs, including MAX phases Ti3AlC2, Ti2AlC, Ti3AlCN, V2AlC, Nb2AlC and others, MXenes Ti2C, Ti3C2, V2C and others – multillayered, delaminated in aqueous or solvent media, different surface functionalisaztion can be developed on the order as well. For the best research results we recommend to use our materials, that have high quality and proven controlled stable properties that is the critical point in research.

Quality that reduces variability

Each MAX-phase and MXene batch undergoes specific quality assessment, including structural, compositional, and surface analyses, ensuring reproducibility and full traceability. We also offer tailored MXene synthesis options — from controlled flake size and surface terminations to intercalated or hybrid MXene structures — enabling researchers to obtain MXenes optimized for their specific scientific goals.

Our reproducible, data-verified materials enable consistent results and faster innovation..
Tunable surface terminations for MXenes to to meet specific given application.

MXenes with optimized flake size and surface control deliver consistent adsorption performance and stable kinetics — key to reproducible research and advanced device performance.We fine-tune MXene characteristics to match your process — prioritizing what matters most to your application, whether it’s electrical conductivity, surface area, or interfacial chemistry.

Applications & research directions

At NanoCarbonTech, we specialize in the synthesis and functionalization of high-purity MXenes and nanostructured carbons tailored for advanced electrochemical research. Our materials are engineered with controlled flake size, surface terminations, and oxidation stability to ensure reproducible performance across diverse experimental conditions. By combining precision manufacturing with in-depth material characterization, we provide researchers with consistent, data-verified materials that accelerate innovation in EMI shielding, energy storage, catalysis, sensing, and electronic devices, whearable electronics, biomedicine and biosensors, structural applications and more.

Energy storage and conversion

MXenes and advanced carbons serve as key components for high-performance energy storage systems, enabling the fabrication of high-rate electrodes, durable current collectors, and stable, well-defined interfaces for supercapacitors and batteries. Their unique combination of metallic conductivity, tunable surface chemistry, and layered morphology allows precise control over ion and electron transport. Researchers leverage our materials to optimize electrode architecture, enhance electrolyte wettability, and significantly reduce equivalent series resistance (ESR), resulting in improved energy and power densities, as well as superior cycling stability. MXenes as high-performance 2D materials for precision biomedical applications and advanced bioelectronicsMXenes offer a versatile platform for biomedical innovation. Their high surface area, tunable chemistry, and biocompatibility enable applications in drug delivery, biosensing, tissue engineering, phototermsl therapy, cancer treatment and bioelectronics — providing researchers with precise control over cellular interactions, release kinetics, and signal performance.Sensing, shielding, catalysis

MXenes are versatile 2D materials with exceptional potential in sensing, shielding, and catalysis. Their high electrical conductivity, large surface area, and tunable surface chemistry enable sensitive and selective detection in chemical and biological sensors. MXenes’ layered structure and metallic properties make them ideal for electromagnetic interference (EMI) shielding, protecting devices from unwanted signals. Additionally, their surface functional groups and catalytic activity support efficient chemical reactions, including energy conversion, environmental remediation, and electrocatalysis. These unique properties make MXenes a key platform for next-generation functional materials across multiple advanced applications. We advise on slurry preparation, ink formulation, and film casting to accelerate onboarding.

Commitment to collaboration

NanoCarbonTech offer tailored MXene synthesis options to meet specific research needs — from controlled flake size and surface termination to intercalation and hybrid composites. Our flexible approach allows researchers to obtain MXenes optimized for their experiments and advanced applications.

Looking for a dependable MXene nanomaterials supplier with application-level support?
Need nanostructured porous carbon materials for research tuned to adsorption, catalysis, or energy storage?
Exploring new ideas that require advanced nanotechnology materials and predictable QC?

Contact NanoCarbonTech LLC. We help research groups and r&d teams across the Europe to move from concept to consistent data — faster, with fewer unknowns. We actively collaborate with universities and research centers, providing premium MXene materials but also technical support and shared expertise to accelerate innovation in the field of 2D materials.

We specialize in the synthesis of high-quality MAX phase and MXene materials with diverse surface terminations, tailored through various approaches to meet the requirements of specific applications — including biomedical use, energy storage, sensing, composites, structural materials, smart textiles, and more.

International Collaboration

If you are looking for MXene materials with particular properties, please feel free to contact us. We are also open to research collaborations and joint projects in the field of MXene materials and their applications.

With branches in the USA, Poland, and Ukraine, we actively participate in international research programs and maintain partnerships with institutions worldwide. Our expertise spans nanomaterials development and synthesis for specific applications, implementation strategies, and process scaling.

We collaborate with numerous research teams across Europe within frameworks such as Horizon Europe, M-ERA.Net, and other programs, providing both materials and expertise for joint research projects and initiatives. If you are interested in collaboration, we would be delighted to discuss potential opportunities with you and your team.

Ordering workflow

Share target composition, preferred flake/particle specs, and specific parameters needed.
Choose research or pilot quantities; request custom nanomaterials when you need non-standard specs.

Receive a rapid quote and lead time; we coordinate buy MXenes Europe delivery options and storage notes.