Probing and manipulating noncovalent interactions in functional polymeric systems
Noncovalent interactions, which usually feature tunable strength, reversibility, and
environmental adaptability, have been recognized as driving forces in a variety of biological …
environmental adaptability, have been recognized as driving forces in a variety of biological …
Mussel-inspired hydrogels: from design principles to promising applications
Mussel-inspired chemistry, owing to its unique and versatile functions to manipulate
dynamic molecular-scale interactions, has emerged as a powerful tool for the rational design …
dynamic molecular-scale interactions, has emerged as a powerful tool for the rational design …
Polydopamine at biological interfaces
In the last years coating of surfaces in the presence of dopamine or other catecholamines in
oxidative conditions to yield “polydopamine” films has become a popular, easy and versatile …
oxidative conditions to yield “polydopamine” films has become a popular, easy and versatile …
Polydopamine surface chemistry: a decade of discovery
Polydopamine is one of the simplest and most versatile approaches to functionalizing
material surfaces, having been inspired by the adhesive nature of catechols and amines in …
material surfaces, having been inspired by the adhesive nature of catechols and amines in …
Mussel‐inspired adhesive and conductive hydrogel with long‐lasting moisture and extreme temperature tolerance
Conductive hydrogels are a promising class of materials to design bioelectronics for new
technological interfaces with human body, which are required to work for a long‐term or …
technological interfaces with human body, which are required to work for a long‐term or …
A novel double‐crosslinking‐double‐network design for injectable hydrogels with enhanced tissue adhesion and antibacterial capability for wound treatment
Most photocrosslinkable hydrogels have inadequacy in either mechanical performance or
biodegradability. This issue is addressed by adopting a novel hydrogel design by …
biodegradability. This issue is addressed by adopting a novel hydrogel design by …
Mussel-inspired chemistry: a promising strategy for natural polysaccharides in biomedical applications
F Liu, X Liu, F Chen, Q Fu - Progress in Polymer Science, 2021 - Elsevier
Polysaccharides are a kind of natural biopolymers and have been widely applied in various
fields, especially biomedical applications, due to their fascinating properties, such as …
fields, especially biomedical applications, due to their fascinating properties, such as …
Injectable adhesive self-healing multiple-dynamic-bond crosslinked hydrogel with photothermal antibacterial activity for infected wound healing
H Guo, S Huang, A Xu, W Xue - Chemistry of Materials, 2022 - ACS Publications
The development of multifunctional injectable adhesive hydrogels with self-healing capacity,
shape adaptability, on-demand removability, and excellent photothermal antibacterial …
shape adaptability, on-demand removability, and excellent photothermal antibacterial …
[PDF][PDF] Mussel-inspired surface engineering for water-remediation materials
Mussel-inspired chemistry, as a powerful tool to manipulate material properties, has been
widely studied and implemented in surface engineering of a variety of materials for …
widely studied and implemented in surface engineering of a variety of materials for …
Polydopamine and its derivative surface chemistry in material science: a focused review for studies at KAIST
Polydopamine coating, the first material‐independent surface chemistry, and its related
methods significantly influence virtually all areas of material science and engineering …
methods significantly influence virtually all areas of material science and engineering …