A comprehensive review of the covalent immobilization of biomolecules onto electrospun nanofibers
Biomolecule immobilization has attracted the attention of various fields such as fine
chemistry and biomedicine for their use in several applications such as wastewater …
chemistry and biomedicine for their use in several applications such as wastewater …
“Click” reactions: a versatile toolbox for the synthesis of peptide-conjugates
W Tang, ML Becker - Chemical Society Reviews, 2014 - pubs.rsc.org
Peptides that comprise the functional subunits of proteins have been conjugated to versatile
materials (biomolecules, polymers, surfaces and nanoparticles) in an effort to modulate cell …
materials (biomolecules, polymers, surfaces and nanoparticles) in an effort to modulate cell …
“Click” chemistry in polymeric scaffolds: Bioactive materials for tissue engineering
Polymeric scaffolds have attracted great interests in recent years, due to their fascination
with a large variety of examples with promising utilization. Recently, extensive efforts have …
with a large variety of examples with promising utilization. Recently, extensive efforts have …
Surface functionalization of nanofibers: The multifaceted approach for advanced biomedical applications
D Kulkarni, S Musale, P Panzade, AC Paiva-Santos… - Nanomaterials, 2022 - mdpi.com
Nanocarriers are gaining significant importance in the modern era of drug delivery.
Nanofiber technology is one of the prime paradigms in nanotechnology for various …
Nanofiber technology is one of the prime paradigms in nanotechnology for various …
Bio-functional electrospun nanomaterials: From topology design to biological applications
Electrospinning is a highly versatile technology to process polymers or related materials into
fibrous materials with diameters ranging from micrometer to nanometer scale. In the early …
fibrous materials with diameters ranging from micrometer to nanometer scale. In the early …
Bioactive electrospun fibers: fabrication strategies and a critical review of surface-sensitive characterization and quantification
Fabricating a porous scaffold with high surface area has been a major strategy in the tissue
engineering field. Among the many fabrication methods, electrospinning has become one of …
engineering field. Among the many fabrication methods, electrospinning has become one of …
Recent advances in post-modification strategies of polymeric electrospun membranes
Electrospinning has been considered as a versatile fiber fabrication technique due to its
enormous potential to develop polymeric membranes for diverse categories of applications …
enormous potential to develop polymeric membranes for diverse categories of applications …
Peptide grafting strategies before and after electrospinning of nanofibers
R Bucci, F Vaghi, E Erba, A Romanelli, ML Gelmi… - Acta Biomaterialia, 2021 - Elsevier
Nanofiber films produced by electrospinning currently provide a promising platform for
different applications. Although nonfunctionalized nanofiber films from natural or synthetic …
different applications. Although nonfunctionalized nanofiber films from natural or synthetic …
Smart ECM-based electrospun biomaterials for skeletal muscle regeneration
The development of smart and intelligent regenerative biomaterials for skeletal muscle
tissue engineering is an ongoing challenge, owing to the requirement of achieving …
tissue engineering is an ongoing challenge, owing to the requirement of achieving …
Adhesion properties of catechol-based biodegradable amino acid-based poly (ester urea) copolymers inspired from mussel proteins
Amino acid-based poly (ester urea)(PEU) copolymers functionalized with pendant catechol
groups that address the need for strongly adhesive yet degradable biomaterials have been …
groups that address the need for strongly adhesive yet degradable biomaterials have been …