[annasta_filters preset_id=1]
5wt% Aqueous Dispersion Polystyrene Coated – Silica Nanoparticles – 20nm – 1000nm (25mL – 500mL)
Applied Physics’ 5wt% Aqueous Dispersion Polystyrene Coated Silica Nanoparticles offer exceptional dispersion stability in water-based systems, thanks to their polystyrene (PS) coating. With a particl…
In stock
Applied Physics' 5wt% Aqueous Dispersion Polystyrene Coated Silica Nanoparticles offer exceptional dispersion stability in water-based systems, thanks to their polystyrene (PS) coating. With a particle size range of 20nm to 1000nm, these nanoparticles are designed to enhance compatibility with both aqueous and organic systems, making them perfect for applications such as drug delivery, nanocomposites, and coatings.
Key Features:
Concentration: 5wt% in deionized water
Surface Coating: Polystyrene (PS) for enhanced stability and compatibility with both aqueous and organic solvents
Particle Size Range: 20nm – 1000nm
Form: Aqueous dispersion
Volume Options: 25mL, 50mL, 100mL, 250mL, 500mL
Purity: >99.9% with minimal surfactants
Dispersion Stability: Excellent long-term stability in water
Applications:
Drug delivery systems and controlled release formulations
Surface functionalization for biomedical applications
Nanocomposite materials for coatings and electronics
Coatings for sensors, diagnostics, and biomedical devices
Encapsulation of active agents in pharmaceuticals
Research in nanotechnology and materials science
Why Choose Applied Physics Polystyrene Coated Silica Nanoparticles?
Our polystyrene-coated silica nanoparticles in 5wt% aqueous dispersion offer improved dispersion stability and enhanced compatibility with a wide range of solvents and systems. These nanoparticles are ideal for drug delivery, advanced nanomaterial development, and biosensing applications, providing reliable performance in a range of industries, including pharmaceuticals, biotech, and nanotechnology.
Additional information
| Model | 1000nm, 100nm, 120nm, 150nm, 200nm, 20nm, 300nm, 30nm, 40nm, 500nm, 60nm, 80nm |
|---|




