Printable homocomposite hydrogels with synergistically reinforced molecular-colloidal networks

Abstract: The design of hydrogels where multiple interpenetrating networks enable enhanced mechanical properties could benefit applications such as biomedical products, 3D printing, and soft robotics. We report a class of self-reinforced homocomposite hydrogels (HHGs) comprised of interpenetrating networks of multiscale hierarchy. A molecular alginate gel is reinforced by a colloidal network of hierarchically branched soft dendritic colloids (SDCs), which are also made of alginate. The reinforcement of the molecular gel… Show more

“…7). It is clear that the physical principles can also be adapted to a broad range of polymers in addition to systems that require different fabrication mechanisms such as cross-linking 29 . These results support our ndings that liquid-liquid fabrication principles can be used to make a broad range of polymeric materials with diverse compositions and target areas of application.…”

“…Nano brillar or nanoporous materials can be used in water cleanup and remediation 7,8,11 . Other applications include adhesives and coatings 1 , homocomposite hydrogels 29 , and battery separators or electrodes 18,19,30 . The new structures reported here can nd further use in applications ranging from colloidal systems to energy and biomedical materials.…”

Multiphasic liquid flow as a universal tool for nanofabrication of diverse polymer morphologies

“…7). It is clear that the physical principles can also be adapted to a broad range of polymers in addition to systems that require different fabrication mechanisms such as cross-linking 29 . These results support our ndings that liquid-liquid fabrication principles can be used to make a broad range of polymeric materials with diverse compositions and target areas of application.…”

“…Nano brillar or nanoporous materials can be used in water cleanup and remediation 7,8,11 . Other applications include adhesives and coatings 1 , homocomposite hydrogels 29 , and battery separators or electrodes 18,19,30 . The new structures reported here can nd further use in applications ranging from colloidal systems to energy and biomedical materials.…”

Multiphasic liquid flow as a universal tool for nanofabrication of diverse polymer morphologies

Application of Additive Technology to Create Universal Carriers of Cellular Structures

Controlled Preparation of Tailed-Type Calcium Alginate Gel Microspheres