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Completed HORIZON European Commission

Reactivity and Transport of Hollow Magnetic Particles Explored with Microfluidics


Funder European Commission
Recipient Organization Ecole Nationale Superieure de Chimie
Country France
Start Date May 01, 2023
End Date Apr 30, 2025
Duration 730 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101110038
Grant Description

RT-MAP will develop novel hollow iron oxide particles and assess their reactivity, stability and mobility under flow through porous media.

Such hollow magnetic particles (h-MPs) have aroused great interest for their potential to encapsulate and control reagent release for environmental remediation and/or heterogeneous catalysis.

Most available reactivity assessment studies rely on the interpretation of breakthrough curves measurement at the outlet batch tests or column experiments and do not allow a direct visualization of pore scale transport and reaction phenomena.

RT-MAP will develop novel microfluidic cells, providing a new window on coupled flow and reaction processes at the microscale, a key to modeling and predicting macroscale reaction rates.

The combination of complementary expertise of the fellow (material synthesis and characterization), and the supervisor and co-supervisors (molecular geochemistry, reactive transport in porous media, microfluidics) will offer a unique opportunity to address these emerging scientific questions.

We will thus fabricate microfluidic cells providing spatially resolved concentration fields under flow through reactive porous media.

Cutting-edge spectroscopic techniques will be used to investigate molecular interactions between reactive particles and two types of fluorescent compounds.

The first is a fluorescent probe (fluorescein) used to functionalize particles and make them traceable by imaging in microfluidics.

The second is an environmentally relevant antibiotic (ofloxacine) to study the reactive properties of h-MPs with emerging contaminants.

Advanced microfluidic devices and fluorescence imaging will provide the first spatial resolved images of h-MP concentration at microscale under different flow rates and solution chemistry.

RT-MAP will thus lead to key innovations at the interface of environmental chemistry, geosciences and microfluidics, placing the fellow on a strong footing to find an independent research position.

All Grantees

Ecole Nationale Superieure de Chimie

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