Thank you!

Your quote has been successfully submitted!

For products requiring additional information, our team will contact you within 1 business day

Failed

There was an error submitting your quote. Please try again.

MSE PRO Solid-Core Mesoporous Silica Nanoparticles Powder– MSE Supplies LLC

Free Shipping on MSE PRO Online Orders of $500 or More! U.S. Orders Only * Offer Excludes Hazmat Shipments *

Menu

This product has been added to the cart.

MSE PRO Carboxyl Modified Dendritic Large Pore Mesoporous Silica - MSE Supplies LLC

MSE PRO Solid-Core Mesoporous Silica Nanoparticles Powder

SKU: MS0255

  • $ 30995
  • Save $ 3800



MSE PRO™ Solid-Core Mesoporous Silica Nanoparticles Powder

MSE SUPPLIES offers a Solid-Core Mesoporous Silica Nanoparticle Powder with a layered structure, prepared through the soft template method in an oil-water two-phase reaction system, featuring center-radial and dendritic mesoporous channels. As an inorganic material, it has three-dimensional dendrites, making it highly biocompatible and suitable for various clinical applications, such as catalysis, separation, adsorption, and biomedicine.

Technical Specifications:

CAS 7440-21-3
Package

500 mg: MS0255

1 g: MS0256

500 mg: MS0257

1 g: MS0258

Average particle size 140-180 nm 80-120 nm
Specific surface area ~500 m2/g ~765.7 m2/g
Pore volume 0.48 cm³/g 1.12 cm³/g
Average pore size 3-4 nm 5-7 nm
Appearance White powder White powder
Storage Store sealed and light-protected at room temperature.

Buy Mesoporous Silica Nanoparticles Powder at MSE Supplies for the best prices on the market. For bulk orders, please contact us for a quote. 

TEM image of Solid-Core Mesoporous Silica Nanoparticles

References

[1] Yoon, Suk Bon, et al. "Synthesis of monodisperse spherical silica particles with solid core and mesoporous shell: mesopore channels perpendicular to the surface." Journal of Materials Chemistry 17.18 (2007): 1758-1761.

[2] Peruzynska, M., et al. "Study on size effect of the silica nanospheres with solid core and mesoporous shell on cellular uptake." Biomedical Materials 10.6 (2015): 065012.