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Fan Yang and co‐workers report on page 346 that microribbon‐like, photo‐crosslinkable elastomers form macroporous tissue engineering scaffolds, which facilitate cell encapsulation and cell proliferation in three dimensions. The unique geometry of microribbons leads to scaffolds with superior flexibility, which can sustain repetitive compression without failing. Such scaffolds could be particularly...
Hydrogel‐based scaffolds are widely used for culturing cells in three dimensions due to their tissue‐like water content and tunable biochemical and physical properties. Most conventional hydrogels lack the macroporosity desirable for efficient cell proliferation and migration and have limited flexibility when subject to mechanical load. Here microribbon‐like elastomers that, when photocrosslinked,...
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