Multicompartment Hydrogels

Abstract: Hydrogels belong to the most promising materials in polymer and materials science at the moment. As they feature soft and tissue-like character as well as high water-content, a broad range of applications are addressed with hydrogels, e.g., tissue engineering and wound dressings but also soft robotics, drug delivery, actuators, and catalysis. Ways to tailor hydrogel properties are crosslinking mechanisms, hydrogel shape, and reinforcement, but new features can be introduced by variation of hydrogel composition… Show more

“…This research achieved the localization of multiple ECM-protein solutions with the developed MultiCUBE platform to spatially guide the structural development of 3D tissue models. So far, heavily engineered processes and chemical modifications necessary for fabricating multiplehydrogel systems (also called multicomponent, multicompartment, multilayer and multiphase hydrogels) [43][44][45] limits their applications in 3D tissue modeling. However, MultiCUBE greatly simplifies the process to localize multiple ECM-protein solutions without chemical modification, which allows the embedding of biological samples in many ways.…”

Localization of multiple hydrogels with MultiCUBE platform spatially guides 3D tissue morphogenesis in vitro

“…This research achieved the localization of multiple ECM-protein solutions with the developed MultiCUBE platform to spatially guide the structural development of 3D tissue models. So far, heavily engineered processes and chemical modifications necessary for fabricating multiplehydrogel systems (also called multicomponent, multicompartment, multilayer and multiphase hydrogels) [43][44][45] limits their applications in 3D tissue modeling. However, MultiCUBE greatly simplifies the process to localize multiple ECM-protein solutions without chemical modification, which allows the embedding of biological samples in many ways.…”

Localization of multiple hydrogels with MultiCUBE platform spatially guides 3D tissue morphogenesis in vitro

“…Polymer Chemistry engineering field. 15 Thus, this literature review focuses on summarising and discussing LCST-type polymers.…”

“…14 In addition to this, the high content in water as well as the soft tissue-resembling property support their suitability in the tissue engineering field. 15 Thus, this literature review focuses on summarising and discussing LCSTtype polymers.…”

Thermoresponsive block copolymers of increasing architecture complexity: a review on structure–property relationships

“…Then, it was worth noting that the hydrogel did not dissolve aer absorbing water and maintained a well-dened shape, elasticity and strength. [79][80][81][82] Simultaneously, the hydrogel will be deformed under a certain external force, which could recover its shape aer the external force was removed. Moreover, functional diversity could be imparted to hydrogel materials by adjusting the composition and structural form of the hydrogel.…”

Advances in metal–organic framework-based hydrogel materials: preparation, properties and applications