2026-06-01T17:02:07Z https://researchdata.tuwien.ac.at/oai2d

oai:researchdata.tuwien.ac.at:0k31k-42d13 2025-07-30T11:41:05Z openaire_data

4.3 TUW.TUDATA 10.48436/0k31k-42d13 oai:researchdata.tuwien.ac.at:0k31k-42d13 Schandl, Stephan Stephan Schandl TU Wien TU Wien 2024 Chemical sciences biofilms in vitro models Pseudomonas aeruginosa Osondu-Chuka, Goodness Goodness Osondu-Chuka 0000-0003-3112-5626 Institute of Colloid and Biointerface Science, BOKU University Guagliano, Giuseppe Giuseppe Guagliano 0000-0003-1059-1505 Politecnico di Milano Perak, Stjepan Stjepan Perak TU Wien Petrini, Paola Paola Petrini 0000-0002-5081-5254 Politecnico di Milano Briatico Vangosa, Francesco Francesco Briatico Vangosa 0000-0002-7088-1064 Politecnico di Milano Reimhult, Erik Erik Reimhult 0000-0003-1417-5576 Institute of Colloid and Biointerface Science, BOKU University Guillaume, Olivier Olivier Guillaume 0000-0003-0735-113X TU Wien 2024-10-30 2025-01-22 2025-07-30 eng 10.1039/D4TB02675F 10.48436/aszb4-9p407 1.0.0 Creative Commons Attribution 4.0 International This Excel file contains raw and partially processed data accompanying the publication with the title "Acetylation of alginate enables the production of inks that mimic the chemical properties of P. aeruginosa biofilm". The data presents raw data for GPC (sheet 1), viscosity (sheet 2), processed uniaxial compression tests to show the Young's moduli of the untreated alginate microbeads at different pH (Figure 3) and tobramycin-treated alginate microbeads (figure 6D). Rheological raw data are presented in the sheets Figure 4A - 4D. Figure 5B contains processed data for the diffusion coefficient of FITC-labelled dextran and also the calculated mesh size of the alginate gels. The sheet Figure 6C contains the data for time-resolved shrinkage upon tobramycin treatment. The data can be used to plot the graphs in any plotting software and to do statistical analysis.