Highly Deformable and Robust Ionic Structure for Multi‐Tissue Adaptive Hemostatic Sponges
Chenxin Song,
Shengyu Wang,
Zheyuan Zhang
et al.
Abstract:Accidental trauma is always accompanied by tissue defects with noncompressible hemorrhages. Deformable and tough biomaterials are desirable for self‐compressible hemostasis, although their preparation is challenging. Here, a critical‐size calcium phosphate (C–CaP) with polymer‐like high deformability and mineral‐like high bending strength is prepared, which is hybridized with silk fibroin (SF) to fabricate a hemostatic sponge (SF‐C). C–CaP endows SF‐C with an ultrahigh elastic modulus (36.0 kPa) among analogou… Show more
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