Electro-Sorting Create Heterogeneity: Constructing A Multifunctional Janus Film with Integrated Compositional and Microstructural Gradients for Guided Bone Regeneration.
Miao LeiHaitao LiaoShijia WangHang ZhouJianwei ZhuHaoran WanGregory F PayneChangsheng LiuXue QuPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Biology remains the envy of flexible soft matter fabrication because it can satisfy multiple functional needs by organizing a small set of proteins and polysaccharides into hierarchical systems with controlled heterogeneity in composition and microstructure. Here, it is reported that controlled, mild electronic inputs (<10 V; <20 min) induce a homogeneous gelatin-chitosan mixture to undergo sorting and bottom-up self-assembly into a Janus film with compositional gradient (i.e., from chitosan-enriched layer to chitosan/gelatin-contained layer) and tunable dense-porous gradient microstructures (e.g., porosity, pore size, and ratio of dense to porous layers). This Janus film performs is shown multiple functions for guided bone regeneration: the integration of compositional and microstructural features confers flexible mechanics, asymmetric properties for interfacial wettability, molecular transport (directional growth factor release), and cellular responses (prevents fibroblast infiltration but promotes osteoblast growth and differentiation). Overall, this work demonstrates the versatility of electrofabrication for the customized manufacturing of functional gradient soft matter.
Keyphrases
- bone regeneration
- drug delivery
- growth factor
- white matter
- wound healing
- room temperature
- reduced graphene oxide
- hyaluronic acid
- single cell
- metal organic framework
- tissue engineering
- cancer therapy
- solid state
- multiple sclerosis
- ionic liquid
- molecular dynamics simulations
- gold nanoparticles
- high speed
- mouse model
- highly efficient
- single molecule
- energy transfer
- quantum dots