MSE PRO 1-5 µm Silver (Ag) Nanoflake, >99.5 wt% - MSE Supplies LLC

MSE PRO 1-5 µm Silver (Ag) Nanoflake, >99.5 wt%

  • $ 19995

MSE PRO 1-5 µm Silver (Ag) Nanoflake, >99.5 wt% 

Silver nanoflake, a product of mechanically ground silver and a novel entry in nanotechnology, boasts exceptional electrical conductivity. Its versatile applications span conductive coatings, inks, and adhesives, offering superior fluidity and stability. Widely utilized in fine line printing, polymer thick film inks, and low-temperature silver pastes, silver flake finds its niche in capacitors, resistors, and electronic components due to its promising conductivity. Ongoing research aims to unveil further advantages, positioning it as a pivotal material in both general-purpose paints and intricate circuitry applications.

Buy high quality 1-5 µm Silver (Ag) Nanoflake products at MSE Supplies for the best prices on the market. For bulk orders, please contact us for a quote. 

Technical Specifications:

CAS Number


Chemical Formula



20g: PO9465

100g: PO9466



Flake Diameter

1-5 µm


0.80-1.45 m2/g

Tap Density

2.45-3.55 g/cm3


>99.5 wt%


4 °C in a light-protected environment


Organic residue may on the surface


1. Conductive Coatings and Inks: Used in electronics for high electrical conductivity and stability.

2. Catalysis: Employed as catalysts in chemical reactions due to their high surface area.

3. Biomedical: Potential in antibacterial agents and drug delivery systems due to silver's antimicrobial properties.

4. Sensors: Applied in detecting gases or biomolecules because of their high surface-to-volume ratio.

5. Optoelectronics and Plasmonic: Used in optoelectronic devices and plasmonic applications.

Note: We can also provide Ag nanoparticles in the following solvents: Chloroform, toluene, cyclohexane, DMF, ethyl acetate, methyl tert-butyl ether, etc. Please contact us for more information.


[1] Zhang, Q.; Yun, G.; Jin, S.; Chen, Z.; Tang, S.-Y.; Lu, H.; Du, H.; Li, W. Silver Nanoflakes-Enhanced Anisotropic Hybrid Composites for Integratable Pressure Sensors. Nanomaterials 202212, 4018.

[2]: Prihandana, G.S.; Sriani, T.; Muthi’ah, A.D.; Musa, S.N.; Jamaludin, M.F.; Mahardika, M. Antibacterial Activity of Silver Nanoflake (SNF)-Blended Polysulfone Ultrafiltration Membrane. Polymers 202214, 3600.

[3]: Chen, L.; Leng, Z.; Long, Y.; Yu, X.; Jun, W.; Yu, X. From Silver Nanoflakes to Silver Nanonets: An Effective Trade-Off between Conductivity and Stretchability of Flexible Electrodes. Materials 201912, 4218.