Projects per year
Abstract
Developing hydrogels with excellent 3D printability, injectability, and mechanical integrity presents an imposing challenge in biomaterials research, especially in the biomedical field where biocompatibility is crucial. This study involved the development of 3D printable and injectable polysaccharide-based hydrogels with inherent self-healing capabilities. Carboxymethyl chitosan and quaternized chitosan (QCS) functioned as polymer backbones, reinforced by dialdehyde-cellulose nanocrystals (DACNC) as a cross-linker. Here, the concentrations of QCS and DACNC were adjusted and optimized for ideal performance. The cross-linking process was orchestrated in situ, integrating dynamic hydrogen bonds and Schiff base covalent bonds to achieve a multi-cross-linked hydrogel network. Comprehensive characterization of the material, including rheological measurements and macroscopic evaluations, demonstrated the hydrogel’s admirable injectability, printability, and self-healing attributes. In vitro cell viability assessments on human dermal fibroblasts revealed favorable biocompatibility and minimal cytotoxicity of the hydrogels, properties influenced by the concentrations of QCS. The obtained hydrogels exhibit promising attributes suitable for fabricating 3D printable and injectable hydrogel customized for biomedical applications, particularly wound healing. Graphical abstract: (Figure presented.)
Original language | English |
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Journal | Cellulose |
DOIs | |
Publication status | E-pub ahead of print - 14 Aug 2024 |
MoE publication type | A1 Journal article-refereed |
Keywords
- Cellulose nanocrystals
- Injectable hydrogel
- Quaternized chitosan
- Wound-healing
Fingerprint
Dive into the research topics of 'Injectable and printable nanocellulose-crosslinked quaternary chitosan blends for potential wound healing'. Together they form a unique fingerprint.Projects
- 1 Finished
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VALUEBIOMAT: Bio-oils based polymeric composites; value chain from syntheisis to additive manufacturing
Seppälä, J. (Principal investigator), Äkräs, L. (Project Member), Revitzer, H. (Project Member), van Bochove, B. (Project Member), Bani Asadi, H. (Project Member), Farzan, A. (Project Member), Dienel, K. (Project Member), Teotia, A. (Project Member), Borandeh, S. (Project Member) & Madani, M. (Project Member)
01/06/2019 → 28/02/2023
Project: Academy of Finland: Strategic research funding
Equipment
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Bioeconomy Research Infrastructure
Seppälä, J. (Manager)
School of Chemical EngineeringFacility/equipment: Facility