Description

Metal Alloy Nanoparticles (MANPs) are engineered multi-metal nanostructures composed of two or more elements fused at the atomic level to achieve synergistic physicochemical properties superior to individual metals. With 99.9% purity and APS <100 nm, these alloy nanoparticles offer enhanced catalytic activity, tunable magnetic/electronic behavior, improved oxidation resistance, and outstanding structural stability.

Our alloy nanoparticles include a diverse selection of binary, ternary, and complex multi-element alloys, designed for high-performance applications in energy, catalysis, electronics, coatings, metallurgy, and additive manufacturing.

Key Features

• Highest-quality alloy compositions with uniform elemental distribution
• APS <100 nm ensuring large active surface area
• Multi-metal synergy enhances electrochemical, catalytic & mechanical properties
• High chemical stability & oxidation resistance
• Ideal for advanced industrial applications including coatings, batteries, and catalysts
• Custom formulations available

Available Metal Alloy Nanoparticles (APS <100 nm; 99.9% purity)

Noble Metal Alloys

• Ag-Cu, Ag-Sn, Ag-Ni, Ag-Pd, Ag-Zr
• Au-Cu, Au-Sn
• Pt-Eu, Pt-Ir, Pd-Ag

Copper-Based Alloys

• Cu-Cd, Cu-In, Cu-In-Ga
• Cu-In-S, Cu-Ni, Cu-Sn, Cu-Zn

Nickel-Based Alloys

• Ni-Al, Ni-Cr, Ni-Cr-Co
• Ni-Ti, Ni-C, Ni-Cr-Al-Y
• Nickel Cobalt Chromium Aluminium Yttrium alloys

Iron-Based Alloys

• Fe-B, Fe-Cr-Co, Fe-Mo
• Fe-Ni, Fe-Ni-Co, Fe-Nb
• Fe-Si, Fe-Ti, Fe-W, Fe-V

High-Performance & Carbide-Based Alloys

• Cr3C2-NiCr
• TiC-WC
• TiC-TaC-WC
• WC-Co, WC-Co-Cu
• WC-CrC-Ni

Aluminium Alloys

• Al-7075
• Al-Mg

Rare-Earth-Enhanced Alloys

• La-Fe-Pd
• Nd-Fe-B

Titanium-Based Alloys

• Ti-Al (Titanium Aluminide)
• Ti-Nb
• TiC-based carbide alloys

Specialty & Stainless Steel Nanoparticles

• Stainless Steel 304L, 316L, 430L powders
• Multi-element stainless-steel alloy NPs

(Complete list sourced directly from the uploaded file )

Applications

Energy & Battery Technology

• High-capacity electrodes for Li-ion, Na-ion, Mg-ion batteries
• Hydrogen storage metals
• Electrocatalysts for water splitting (HER/OER)

Catalysis & Industrial Reactions

• Bimetallic and trimetallic catalysts
• Solar-driven catalytic reactions
• CO₂ reduction, ammonia synthesis, petrochemical cracking

Electronics & Soldering

• Low-melting solder alloys (Ag-Sn, Au-Sn)
• Conductive pastes & semiconductor contacts
• Magnetic storage materials

Coatings, Metallurgy & Additive Manufacturing

• High-hardness and anti-wear coatings (WC-Co, TiC-WC)
• Corrosion-resistant layers
• Binder alloys for sintering and 3D printing

Magnetic Materials

• Fe-Ni, Nd-Fe-B, Fe-Cr-Co alloys
• Soft and hard magnetic nanopowders
• Sensors and memory devices

Advantages of Alloy Nanoparticles

• Stronger catalytic efficiency due to multi-element active sites
• Enhanced mechanical robustness and wear resistance
• Customized electronic, optical, and magnetic properties
• Perfect compatibility with graphene, GO, rGO, and carbon supports
• Tunable surface chemistry for specific industrial environments