Bioinspired Processing Complex Coacervates as is a M.Tech project topic for Mechanical Engineering. It gives students a clear starting point for research, implementation planning, and documentation.
Bioinspired Processing Complex Coacervates as Project Details
| Abstract |
Three-dimensional bioprinting is a powerful technique across the field of biomedical engineering, but the use of this technology is currently limited by the functional biomaterial inks. These inks must meet a series of criteria that include optimized physicochemical properties and high cytocompatibility. This work examines the use of coacervates formed from chitosan and hyaluronic acid to serve as bioink materials for bioprinting and are inspired by the coacervation found in natural coacervate materials. In coacervates, bioactive molecules are present, and the mechanical properties are easily modified by simple, ambient conditions. This makes them ideal for use in 3D bioprinting. Coacervates provide unique opportunities through adjustments to salt concentration, pH, and
polymer molecular weight to design bioink formulations optimized for printing in air (aerosol) or liquid (submerged) environments. Prior to printing, the bioink is a viscoelastic fluid, but during the printing process, it is transformed into a viscoelastic solid either through dehydration in aerosol printing or through changes in pH and ionic conditions in submerged printing. Consequently, scaffolds manufactured from complex coacervates retain mechanical stability and do not require post-processing modifications. The established cell culture scaffolds show a high degree of cytocompatibility.
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| Reference Paper |
Bioinspired Processing: Complex Coacervates as Versatile Inks for 3D Bioprinting |
| Domain |
Mechanical Engineering |
| Sub-Domain |
Design & Manufacturing / Additive Manufacturing / Bioprinting |
| PDF Download |
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