D1.1 Control of structure via confinement and quantification of the dynamics
D1.2 Properties of the IN interface of entropy dominated systems
D1.3 Quantifying and controlling dynamics through rod characteristics
D1.4 Quantifying and controlling dynamics through interactions and concentration
D1.5 Directing structure via chirality
D1.6 Final report on WP 1.2 and 1.3
D2.1 Understanding the molecular origin of dynamically percolated states
D2.2 State diagram of the arrested states
D2.3 Characterization of aging and yielding or arrested rod-like particles
D2.4 Behavior and rheology of anisotropic suspension in the presence of large inclusions
D2.5 Quantifying suspension rheology probing structure percolation in the presence of inclusions
D3.1 Directing the flow response by tuning particle characteristic
D3.2 Directing the mesophase structure by shear flow
D3.3 Control of the flow behaviour in complex geometries
D3.4 Detailed understanding of the coagulation process during fibre spinning
D3.5 Understanding of the effect of impurities on fibre spinning
D4.1 Production of thermoresponsive virus-based systems with varying length and flexibility
D4.2 Production of thermoresponsive silica rods
D4.3 Production of cellulose microfibrils in mixtures
D4.4 Production of nanocellulose particles for wet-spinning processes
D4.5 Final report on production of cellulose microfibrils in mixtures
D4.6 Final report on nanocellulose particles
D5.1 Industrial specifications regarding WP1-4 tasks
D5.2 Report and recommendation on exploitation
D6.1 Training and events Plan
D7.1 Project identity set and launch of DiStruc web portal
D7.2 Plan on outreach activities
D7.3 Plan for the dissemination and exploitation of the project's results
D8.1 Supervisory Board of the network
D8.2 Progress report
D8.3 Draft periodic report
D8.4 Mid-term review meeting