MAX-phases

PUBLIC INFORMATION

MAX-Phase Materials for  MXene Synthesis and Advanced Research 

NanoCarbonTech – Leading  Supplier for Scientific & Industrial Applications

MAX phases represent a unique class of layered ceramics with combined metallic and ceramic properties. These materials exhibit high electrical and thermal conductivity, excellent oxidation resistance, and exceptional mechanical stability.

At NanoCarbonTech, we specialize in the manufacturing and global supply of high-quality MAX-phase materials for MXene synthesis, energy storage, electronic, electrochemical, biomedical applications, and structural materials research.

High-Quality  Materials – Available for Purchase

We offer an extensive range of  materials, carefully synthesized for scientific research and advanced material development:

  • Ti₃AlC₂ (Ti3AlC2) – One of the most studied MAX phases, used extensively for MXene Ti₃C₂ synthesis due to its layered structure and excellent conductivity.
  • Ti₂AlC (Ti2AlC) – Provides a stable Ti₂C MXene precursor with enhanced mechanical flexibility.
  • V₂AlC (V2AlC) – A critical precursor for V₂C MXene, known for its  electronic properties.
  • Nb₂AlC (Nb2AlC) – A conductive ceramic with excellent high-temperature performance, used in Nb₂C MXene research.
  • Cr₂AlC (Cr2AlC) – Offers high corrosion resistance and catalytic potential for surface engineering.
  • Ti₃AlCN (Ti3AlCN) – A nitrogen-doped MAX phase with modified electronic properties.
  • Mo₂Ti₂AlC₃ (Mo2Ti2AlC3) – A high-performance ternary carbide with superior durability.
  • Mo₂GaC (Mo2GaC) & Mo₂Ga₂C (Mo2Ga2C) – Precursors for Mo-based MXenes, exhibiting excellent electrical and thermal properties.
  • V₄AlC₃ (V4AlC3), Nb₄AlC₃ (Nb4AlC3), Cr₂TiAlC₂ (Cr2TiAlC2), Mo₃VAlC₃ (Mo3VAlC3), Ta₄AlC₃ (Ta4AlC3) – Experimental materials with customizable electronic and structural characteristics.

For  purchase, research collaborations, or custom synthesis inquiries, contact us:
📩 sales@nanocarbon.tech


Manufacturer & Official MXene Partner of Drexel University

Through long-term collaboration with Drexel University, USA, NanoCarbon Tech is an officially licensed MXene materials producer and supplier . Our partnership allows us to manufacture and distribute MXene materials for academic and industrial research worldwide.

We specialize in the synthesis and supply of:

  • MXenes V₂C, Ti₂C, Ti₃C₂, Ti₃(C,N)₂, Nb₂C, Mo₂Ti₂C₃, V₄C₃, Nb₄lC₃
  • Colloidal dispersions of MXenes in aqueous and organic solvents
  • Customizable flake sizes and surface modifications

Our MXene production techniques ensure consistent structural integrity, surface chemistry control, and reproducible electrochemical behavior.

We also developed and provide experemental customized laboratory etching reactors designed for MXene synthesis and  material processing.

Also we are open for cooperarion with academy and industrial partners, and will be glad to take part in international research and development projects.We have many successfully completed Horizon 2020 European projects, US DoE projects, M-ERA.NET projects and are open for all r&d collaborations.


Supply & Experimental Synthesis for R&D

As a trusted  producer, we provide:
High-quality  powders and bulk materials tailored for scientific applications.
Custom  synthesis for experimental research and emerging technologies.
Reliable worldwide distribution for research institutions and industrial partners.

We have supplied our MAX-phase and MXene materials to over 300 universities, national laboratories, and technology companies as part of collaborative research projects and customized production orders.

Our MAX-phase and derived from them MXene materials are utilized in:

  • Electronics & advanced coatings
  • Nanotechnology & quantum materials
  • Electrocatalysis & supercapacitor electrodes,
  • Structural ceramics & advanced composites
  • Biomedical & Environmental Protection applications 

As a materials  developer, trader and supplier, we ensure precise composition control  and tailored microstructural properties for each synthesized material.


Synthesis & Properties

Our sintered  MAX phase materials are optimized for MXene production and high-performance applications, offering:
Layered structures facilitating selective etching for MXene fabrication.
High thermal and electrical conductivity for electronic devices.
Superior mechanical strength and oxidation resistance.

Available Formats:

Powders – Controlled particle sizes: ≤ 200 µm, ≤ 100 µm, ≤ 40 µm.
Solid-state samples & bulk materials – Engineered for research applications (on the order).
Custom compositions – Tailored for specialized experimental studies (on the order).

As a leading manufacturer, we maintain high standards in synthesis techniques, processing parameters, and material characterization.

For supply or customized material development, reach out today:

📩 sales@nanocarbon.tech


Why Choose NanoCarbonTech as Your Partner and Supplier?

Expertise in materials & MXene synthesis
Officially licensed by Drexel University for MXene research
Global leader in MAX-phase production & distribution
Strong collaborative network with academic & industrial partners

We actively participate in Horizon 2020 European projects, US DoE initiatives,  and cutting-edge R&D collaborations. Our materials are used in next-generation energy storage, catalysis, and high-performance electronics.

For inquiries regarding materials, collaborative research, or bulk purchases, contact us today!

📩 sales@nanocarbon.tech

MAX-phase TI3ALC2 powder, NanoCarbonTech
TI3ALC2 powder, SEM image