Projects in the previous VirtMat funding periods
VirtMat 2 (2021-2023):
- Project 1: Enhancing circular dichroism from chiral molecules using designed photonic materials
- Project 2: A digital twin for parallel NMR pulse sequences – INFERENCE
- Project 3: Development of a Digital Twin to predict the Degradation of Cementitious Materials for critical Infrastructure Constructions
- Project 4: Dissecting biomolecular interactions at materials' surfaces using deep learning approaches
- Project 5: Digital twin for microstructural optimization processes due to annealing of SPD treated materials
- Project 6: Machine learning and high-throughput synthesis for the design of responsive materials
- Project 7: Ab initio guided compositional design of quantum materials
- Project 8: Reversed Engineered Digital Twins for Adsorbents used in Biotechnology
- Project 9: Design of “self-assembled” devices in printed electronics: Modeling and experimental investigation of wetting phenomena for multi-component and multi-phase fluids on patterned substrates
- Project 10: Virtual Design of Materials of Organic Semiconductor Materials
- Project 11: Theory-Guided Design of Highly Efficient and Stable Organic Electro-Optical Materials
- Project 12: Co-optimized Materials, Processes and Layouts for Superconducting Circuit Components
- Project 13: Virtual Design of Chiral Alignment Materials for Determination of Absolute Configuration of Complex Molecules
- Project 14: Virtmat Organic Foundry
- Project 15: Design of High-Entropy Oxides with Tailored Properties
- Project 16: Virtual Research Environment for Materials Modelling and Data Analysis
VirtMat 1 (2017-2020):
- Project 1: Computational design of nanoporous structures for sensor devices
- Project 2: Catalysis 4.0
- Project 3: Virtual design of 3D chiral metamaterials
- Project 4: Design of tailored, tunable carbon materials for bioseparation of nucleic acids
- Project 5: Design of organic semiconductors
- Project 6: Design principles for chemical substitution in electronic materials
- Project 7: Unbiased modeling of bioadhesion on complex materials
- Project 8: Virtual design of self-assembled 2-dimensional layered materials
- Project 9: Computational design of nanoporous structures for printed electronics
- Project 10: VIBUMA – Platform for virtual building materials development
- Project 11: High pressure torsional extrusion
- Project 12: Printed electronics for empirical modelling