Pablo García-Triñanes
Senior Lecturer and Programme Leader, University of Greenwich, UK
Chair(s):
- Aaron Moment, Columbia University
Schedule
| Time | Presentation | Presenter |
| 8:45 AM | Surface Modification of Particles in Fluidised Beds at Atmospheric Conditions | Pablo García-Triñanes, University of Greenwich |
| 9:15 AM | Designer Polymeric Nanoparticles to Help Heart Failure | Carly Filgueira, Houston Methodist |
Abstracts
Surface modification of particles in fluidised beds at atmospheric conditions
Pablo Garcia-Trinanesa*, Damiano La Zarab, J. Ruud van Ommenb; a Materials and Chemical Engineering Group, School of Engineering, University of Greenwich, Medway, ME4 4TB, United Kingdom; b Department of Chemical Engineering, Delft University of Technology, 2629 HZ, Delft, the Netherlands
In this study, a method to uniformly functionalize the surface of particles using self-limiting vapor-phase deposition of silanes is presented. The deposition process is carried out at atmospheric pressure in a fluidized bed reactor and the correlation between surface energy and the electrostatic properties of the resulting particulate materials was studied. Glass beads were functionalized with a fluorine-containing silane to change their cohesion properties and therefore inter-particle forces. This demonstrates the potential use of fluidized beds as an alternative route to wet processes producing less wastes with a solvent-free process and achieving more selectivity with shorter processing times. Characterization techniques such as SEM, XPS, TGA, Surface energy and Free energy analysis as well as a method for assessing the electrostatic properties and the polarity of charged glass beads used in this study.
