Hollow nanoparticles with hybrid double layers

Assignee

• The Administrators of the Tulane Educational Fund · US

Inventors

• Vijay T. John · New Orleans, US
• Gary McPherson · Mandeville, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02E60/50
• WIPO fieldPharmaceuticals
• WIPO sectorChemistry

Abstract

The present invention discloses the morphology of hollow, double-shelled submicrometer particles generated through a rapid aerosol-based process. The inner shell is an essentially hydrophobic carbon layer of nanoscale dimension (5-20 nm), and the outer shell is a hydrophilic silica layer of approximately 5-40 nm, with the shell thickness being a function of the particle size. The particles are synthesized by exploiting concepts of salt bridging to lock in a surfactant (CTAB) and carbon precursors together with iron species in the interior of a droplet. This deliberate negation of surfactant templating allows a silica shell to form extremely rapidly, sealing in the organic species in the particle interior. Subsequent pyrolysis results in a buildup of internal pressure, forcing carbonaceous species against the silica wall to form an inner shell of carbon. The incorporation of magnetic iron oxide into the shells opens up applications in external stimuli-responsive nanomaterials.