Why Traditional Silica Fails in 95°C Extrusion.
A molecular-kinetic analysis of mesoporous collapse and vapor-phase degradation of bio-actives during 95°C steam conditioning.
The Science of Contact Angles: Achieving ≥110°.
Quantifying surface energy: How HMS grafting achieves ≥110° contact angles to eliminate capillary condensation and hopper bridging.
Beyond Caking: Maximizing Liquid Active Loading.
Thermodynamics of Adsorption: Optimizing mesopore volume for 320% liquid loading in essential oil and organic acid carriers.
Protecting Probiotics: The HC-Bio Thermal Shield.
The HC-Bio Thermal Shield: Maintaining log-scale viability of probiotics under 30-bar extrusion pressure.
Laplace Pressure and Pore Stability.
Laplace Pressure Dynamics: Engineering 'anti-capillary' HMS architecture to repel high-humidity ingress.
The Trans-Pacific Pipeline: UCSD to Global Center.
The R&D Pipeline: Translating UCSD molecular research into ISO-certified industrial scale-up in Global Center.
Microencapsulation Trends 2026: Molecular Carriers.
The industry shift from commodity protection to molecular-level engineering and precision stability.
Preventing Evaporative Loss in Essential Oils.
How molecular trapping architecture reduces oil leaching and preserves aromatic profiles during storage.
Efficiency: The New Sustainable Silica.
Reducing the environmental footprint of animal nutrition through waste reduction and high-concentration solutions.