Microstructures generated with GeoDict
Including download of the files for replication the generated microstructures
Synthetically created NMC622 cathode for the structur.e project based on geometrical properties from 3D nanoCT scans.
We appreciate the support of the German Federal Ministry for Economic Affairs and Energy (BMWi) for funding the project "Structur.E - Structured Anodes for Improved Fast Charging Capability and Increased Energy Density of Lithium-Ion Batteries" (03ETE018F).
Synthetically created graphite anode for the structur.e project based on geometrical properties from 3D nanoCT scans.
We appreciate the support of the German Federal Ministry for Economic Affairs and Energy (BMWi) for funding the project "Structur.E - Structured Anodes for Improved Fast Charging Capability and Increased Energy Density of Lithium-Ion Batteries" (03ETE018F).
- Command: Predefined > LamiGeo in FiberGeo.
Layers at 0, 45, -45 and 90 degrees in the XY-plane.
- Command: Predefined > Glass-Fiber-Reinforced-Plastic in FiberGeo
Fiber length is 300 microns (short glass fibers).
The structure models a material produced by injection molding.
- Command: Predefined > Catalyst Layer in GrainGeo.
- Command: Predefined > Gas-Diffusion-Layer in FiberGeo
- Command: Predefined > ElectrodeGeo in GrainGeo
Aluminium oxide platelets are gradually put into a plaster mould and are pulled in one direction by a magnet. The magnet changes position at regular intervals, so that the already dried platelets retain their orientation. The rest are pulled in a different direction. This structure is modelled after the layers of natural tooth or mussel shells.
The structure was designed with GeoDict`s powerful macro language at KAUST, Saudi Arabia. SEM image courtesy of M. Shi, WDRC KAUST, Saudi Arabia. Model courtesy of G. Printsypar, NumPor, KAUST, Saudi Arabia.
