Product Overview
Our Nickel-Coated Multi-Walled Carbon Nanotubes (MWCN) with an inner diameter of 5-10nm are engineered to meet the cutting-edge needs of various industries, including electronics, energy, and materials science. By combining the exceptional structural integrity of MWCNs with the conductive and magnetic properties of nickel, these nanotubes offer a versatile solution for enhancing the performance of composite materials, catalytic systems, and magnetic devices. Ideal for applications requiring high electrical conductivity, thermal stability, and magnetic responsiveness, our nickel-coated MWCNs are poised to drive innovation and efficiency in your projects.
Key factor
Optimized Nickel Coating: Ensures a uniform and consistent layer, enhancing the overall performance of the nanotubes.
Versatility in Applications: Can be seamlessly integrated into various domains, from advanced composites to cutting-edge electronics and magnetic systems.
High Purity and Quality: Manufactured under stringent conditions to ensure the highest quality and performance standards.
Eco-Friendly Manufacturing Process: Produced with an emphasis on minimizing environmental impact, aligning with sustainable industrial practices.
Applications
Composite Materials: Reinforces polymers, metals, and ceramics, improving their conductivity, strength, and magnetic properties.
Electronics: Crucial for developing conductive pathways in circuits, electrodes in batteries, and components in energy storage devices.
Magnetic Devices: Enhances the performance of magnetic data storage systems and electromagnetic shielding materials.
Catalysis: Acts as a catalyst or catalyst support in chemical reactions, improving efficiency and selectivity.
Advantages
Enhanced Electrical Conductivity: Nickel coating significantly increases the electrical conductivity, making it ideal for electronic applications.
Magnetic Functionality: Introduces magnetic properties, expanding its use in data storage and electromagnetic devices.
Improved Thermal Stability: Offers exceptional heat resistance, suitable for applications requiring durability at high temperatures.
Chemical Robustness: Nickel layer provides additional chemical stability, protecting the carbon nanotubes in harsh environments.
References
- Fabrication of bimetallic Pt–M (M= Fe, Co, and Ni) nanoparticle/carbon nanotube electrocatalysts for direct methanol fuel cells, CT Hsieh, JY Lin - Journal of Power Sources, 2009 - Elsevier
- STUDY THE EFFECTS OF CARBON NANO TUBES ON CORROSION BEHAVIOR OF NI-PELECTRO-LESS COATINGOF LOW ALLOY STEELS IN SALT …, ARK ABIDALI, AMH WAIS - International Journal of Mechanical …, 2019 - researchgate.net
- Characterization and hydrogen storage of surface-modified multiwalled carbon nanotubes for fuel cell application, KS Lin, YJ Mai, SR Li, CW Shu, CH Wang - Journal of Nanomaterials, 2012 - hindawi.com