Degradable biomedical elastomers: paving the future of tissue repair and regenerative medicine
B Jia, H Huang, Z Dong, X Ren, Y Lu… - Chemical Society …, 2024 - pubs.rsc.org
Degradable biomedical elastomers (DBE), characterized by controlled biodegradability,
excellent biocompatibility, tailored elasticity, and favorable network design and …
excellent biocompatibility, tailored elasticity, and favorable network design and …
Advances and challenges in conductive hydrogels: From properties to applications
C Zhou, T Wu, X **e, G Song, X Ma, Q Mu… - European Polymer …, 2022 - Elsevier
The progress of soft robot industry has driven the development of electronic devices.
Electronic devices used in electronic skin or wearable electronic devices require conductive …
Electronic devices used in electronic skin or wearable electronic devices require conductive …
[HTML][HTML] Biopolymer-based composites for tissue engineering applications: A basis for future opportunities
Biomimetic scaffolds supporting tissue regeneration are complex materials with
multifunctional characteristics. The unique biocompatibility and biodegradability of …
multifunctional characteristics. The unique biocompatibility and biodegradability of …
Emerging 3D bioprinting applications in plastic surgery
P Yang, Y Ju, Y Hu, X **e, B Fang, L Lei - Biomaterials Research, 2023 - spj.science.org
Plastic surgery is a discipline that uses surgical methods or tissue transplantation to repair,
reconstruct and beautify the defects and deformities of human tissues and organs. Three …
reconstruct and beautify the defects and deformities of human tissues and organs. Three …
Stretchable, injectable, and self-healing conductive hydrogel enabled by multiple hydrogen bonding toward wearable electronics
Conducting polymer hydrogels have been employed in diverse fields such as energy
storage and bioelectronics, which possess both the mechanical properties of hydrogels and …
storage and bioelectronics, which possess both the mechanical properties of hydrogels and …
Conductive biomaterials for muscle tissue engineering
Muscle tissues are soft tissues that are of great importance in force generation, body
movements, postural support and internal organ function. Muscle tissue injuries would not …
movements, postural support and internal organ function. Muscle tissue injuries would not …
Designing of gradient scaffolds and their applications in tissue regeneration
A Pattnaik, AS Sanket, S Pradhan, R Sahoo, S Das… - Biomaterials, 2023 - Elsevier
Gradient scaffolds are isotropic/anisotropic three-dimensional structures with gradual
transitions in geometry, density, porosity, stiffness, etc., that mimic the biological extracellular …
transitions in geometry, density, porosity, stiffness, etc., that mimic the biological extracellular …
Organ‐on‐a‐chip platforms: a convergence of advanced materials, cells, and microscale technologies
Significant advances in biomaterials, stem cell biology, and microscale technologies have
enabled the fabrication of biologically relevant tissues and organs. Such tissues and organs …
enabled the fabrication of biologically relevant tissues and organs. Such tissues and organs …
Nanoengineered peptide‐based antimicrobial conductive supramolecular biomaterial for cardiac tissue engineering
Owing to their dynamic nature and ordered architecture, supramolecular materials strikingly
resemble organic components of living systems. Although short‐peptide self‐assembled …
resemble organic components of living systems. Although short‐peptide self‐assembled …
Advances and future perspectives in 4D bioprinting
Three‐dimensionally printed constructs are static and do not recapitulate the dynamic nature
of tissues. Four‐dimensional (4D) bioprinting has emerged to include conformational …
of tissues. Four‐dimensional (4D) bioprinting has emerged to include conformational …