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Amine Functionalized Silica Microspheres – 1wt% Ethanol Dispersion – 20nm – 1000nm (25mL – 1000mL)
Applied Physics’ Amine Functionalized Silica Microspheres are supplied as a 1wt% dispersion in ethanol, offering excellent suspension stability and ease of use in organic-phase applications. Featuring…
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Applied Physics' Amine Functionalized Silica Microspheres are supplied as a 1wt% dispersion in ethanol, offering excellent suspension stability and ease of use in organic-phase applications. Featuring primary amine (-NHâ‚‚) surface groups and precise particle sizes ranging from 20nm to 1000nm, these microspheres are ideal for bioconjugation, surface engineering, and advanced chemical synthesis.
Key Features:
Concentration: 1wt% silica microspheres in ethanol
Particle Size Range: 20nm – 1000nm
Form: Ethanol dispersion
Surface Functionalization: Primary amine (-NHâ‚‚) groups
Volume Options: 25mL, 50mL, 100mL, 250mL, 500mL, 1000mL
Purity: >99.9%
Appearance: Translucent white suspension
Dispersion Medium: Anhydrous ethanol
Applications:
Surface modification and coating development
Bioconjugation with DNA, proteins, and antibodies
Catalysis and nanomaterial synthesis
Bioassays and diagnostics
Microfluidic systems and lab-on-chip platforms
Research in organic-phase nanochemistry
Why Choose Applied Physics?
Our ethanol-based amine-functionalized silica microspheres are manufactured with strict quality controls to ensure consistent particle size, excellent dispersion, and reliable surface functionality. Designed for advanced R&D, bioengineering, and materials science.
Additional information
| Model | 1000nm, 100nm, 120nm, 150nm, 200nm, 20nm, 30nm, 400nm, 40nm, 500nm, 600nm, 60nm, 800nm, 80nm |
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