Multiscale Simulations (D1.1)

Using a large range of theoretical and computational tools and capturing details across all relevant length and time scales, we design 3D-printed functional systems.
Our Goal

Project D1.1 aims to develop unified modeling frameworks that predict the behavior and functionality of 3D-printed devices and self-assembling biological systems, accounting for details that matter across length scales. This approach will enable the design of advanced nanophotonic, electronic, and bio-integrated devices with novel functionalities. We will fuse multiple tools into holistic computational workflows that capture all relevant aspects of 3D-printed functional systems.

Principal Investigators Involved

Saeed Amirjalayer
Heidelberg University

saeed.amirjalayer@iwr.uni-heidelberg.de

Pascal Friederich
Karlsruhe Institute of Technology

pascal.friederich@kit.edu

Carsten Rockstuhl
Karlsruhe Institute of Technology

carsten.rockstuhl@kit.edu

Ulrich Schwarz
Heidelberg University

schwarz@thphys.uni-heidelberg.de

Wolfgang Wenzel
Karlsruhe Institute of Technology

wolfgang.wenzel@kit.edu

Related Topics:

Research Area A

Molecules & Inks
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Research Area B

Technologies
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Research Area C

Applications
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Research Area D

Digital Blueprints
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