New (Photo)polymerization Methods and Bioconjugation (A2.2)

The goal of project A2.2 is to a) develop sustainable photopolymerization strategies for light-based 3D printing and b) bioconjugation methods.
Our Goal

Project A2.2 aims to develop sustainable photopolymerization strategies for light-based 3D printing beyond traditional radical curing of vinyl monomers, which lacks biocompatibility, adaptability, and degradability. New approaches use photocatalysts, biocaged molecules, and renewable feedstocks such as polyol-based inks. Incorporating heteroatoms and dynamic covalent chemistries enables printed materials to degrade more readily, adapt to their environment, and show responsive or “living” behavior.

The project also targets precise light-controlled functionalization by integrating photoreactive groups, peptide-based building blocks, and efficient methods for late-stage introduction of functional moieties that support photo-controlled (bio)conjugation and spatially defined modification.

Principal Investigators Involved

Saeed Amirjalayer
Heidelberg University

saeed.amirjalayer@iwr.uni-heidelberg.de

Christopher Barner-Kowallik
Karlsruhe Institute of Technology

christopher.barner-kowollik@kit.edu

Eva Blasco
Heidelberg University

eva.blasco@oci.uni-heidelberg.de

Stefan Bräse
Karlsruhe Institute of Technology

braese@kit.edu

Stefanie Dehnen
Karlsruhe Institute of Technology

stefanie.dehnen@kit.edu

Motomu Tanaka
Heidelberg University

tanaka@uni-heidelberg.de

Martin Wegener
Karlsruhe Institute of Technology

martin.wegener@kit.edu

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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