Self-healing, biocompatible bioinks from self-assembled peptide and alginate hybrid hydrogels

Name: Self-healing, biocompatible bioinks from self-assembled peptide and alginate hybrid hydrogels
Creator: Emily Field
Published: 2024-06-20T09:43:32.734Z
Keywords: Biomaterials Characterization, 3D Bioprinting

Field , Emily; Ratcliffe, Julian; Johnson, Chad; Binger, Katrina; Reynolds, Nicholas

doi:10.17632/8yjtj7dhmm.1

Self-healing, biocompatible bioinks from self-assembled peptide and alginate hybrid hydrogels

Published: 20 June 2024| Version 1 | DOI: 10.17632/8yjtj7dhmm.1

Contributors:

Emily Field , Julian Ratcliffe, Chad Johnson, Katrina Binger, Nicholas Reynolds

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Data for manuscript entitled self-healing, biocompatible bioinks from self-assembled peptide and alginate hybrid hydrogels

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See manuscript entitled Self-healing, biocompatible bioinks from self-assembled peptide and alginate hybrid hydrogels for a detailed description of the methods used. Figure 2 ab, rheologicala data - amplitude sweeps Figure 2c Extrusion pressure required to 3D print Fgiure 2D rheological data viscosity curve Figure 2E Quantification of printing quality Figure 3ac: 8 interval thixotropic rheology tests Figure 4c: Cell viability data (Presto Blue) Figure 5F: ThT fluorescence data Figure 5G: Rheological data, amplitude sweeps

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La Trobe University - Melbourne Campus

Self-healing, biocompatible bioinks from self-assembled peptide and alginate hybrid hydrogels

Description

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Steps to reproduce

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