Reprint
Scaffolds and Surfaces with Biomedical Applications
Edited by
June 2023
246 pages
- ISBN978-3-0365-7833-0 (Hardback)
- ISBN978-3-0365-7832-3 (PDF)
This book is a reprint of the Special Issue Scaffolds and Surfaces with Biomedical Applications that was published in
Chemistry & Materials Science
Engineering
Summary
The present reprint, entitled ‘Scaffolds and Surfaces with Biomedical Applications’, published 13 papers (10 research and 3 review papers) that describe the synthesis of new materials for biomedical applications and their thorough characterization using conventional and emerging techniques.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
electrospinning; nanofibrous membrane; antibacterial activity; protection efficiency; mask; numerical analysis; computational method; tissue engineering scaffold design; mechanical strength; simulation software; extracellular matrix; ECM hydrogel; viscoelasticity; decellularized organs; Maxwell model; cuttlefish bone; biphasic calcium phosphate; polymeric coatings; rifampicin; drug delivery system; silk fibroin; nonwovens; human; smooth muscle cells; vascular endothelial cells; exosomes; cytokines; chemokines; proliferation; mobilization; angiogenesis; plasma polymerization; spinal cord injury; diffusion tensor imaging; rhesus monkey; hemodialysis; covalent functionalization; composite membranes; polysulfone; additive manufacturing; tissue engineering; biomaterials; scaffold; 3D printing; nanostructured polyacrylamide; silver-decorated carbon nanotubes; mechanical properties; antibacterial activity; ultra-short laser processing; biomaterials; 3D printing; cell adhesion; antibacterial surfaces; soft tissue engineering; bone scaffold; DLP 3D printing; mechanical strength; biocompatibility; ureteral stent; biodegradable stent; cell viability assessment; chemotherapy; UTUC; amphiphilic block copolymers; polylactide; thermal properties; mechanical properties; hydrophilicity; hydroxyapatite; n/a