Phd Candidates

DC1

Tuning model colloidal gels by external shear and flow – Applications to energyrelated Materials

DC2

Anisotropic particle gels under external and internal stimuli – Applications in industrial systems

DC3

Tuning model colloidal gels by external magnetic fields – Applications in Tissue Engineering

DC4

Structuring of colloidal gels by ultrasound-activated inclusions – Applications to new products

DC5

Tuning colloidal gels with ultrasound, application to gel flow and structuration

DC6

Tuning colloidal gels by coupling shear & electric field – Applications to gel precursors for battery electrodes

DC7

Simulating Colloidal Gels with Hydrodynamics – Applications to Driven, Magnetic, and Living Systems

DC8

Shear-induced transitions in Plant-protein containing gels

DC9

Tuning and optimizing the structure and performance of battery electrode slurries by processing

DC10

RheoOCT-imaging and Depth-Resolved scattering: novel in-process characterization to resolve gel formation

DC11

Tuning model colloidal gels by external magnetic fields – Applications in Cancer Treatment

DC12

Catalytic ink processing parameters and their effects on fuel cell electrode manufacturability and performance

DC13

Rheology and impact of power ultrasound on mixtures of cement and limestone fillers

DC14

Rheology and shear-induced state transitions in filled gels: anhydrous model systems

DC15

Rheology and microstructure of model catalytic inks under simple and complex shear

PhD Candidates