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. 2019 Oct;15(41):e1901560.
doi: 10.1002/smll.201901560. Epub 2019 Aug 18.

Multifunctional Nanoengineered Hydrogels Consisting of Black Phosphorus Nanosheets Upregulate Bone Formation

Zhenming Wang  1   2 Jin Zhao  1 Wanze Tang  1 Liqiu Hu  1 Xin Chen  1 Yiping Su  3 Chang Zou  4 Jianhong Wang  4 William W Lu  5 Wanxin Zhen  1 Ronghua Zhang  2   6 Dazhi Yang  1 Songlin Peng  1   4
Affiliations

Multifunctional Nanoengineered Hydrogels Consisting of Black Phosphorus Nanosheets Upregulate Bone Formation

Zhenming Wang et al. Small. 2019 Oct.

Abstract

Tissue-engineered hydrogels have received extensive attention as their mechanical properties, chemical compositions, and biological signals can be dynamically modified for mimicking extracellular matrices (ECM). Herein, the synthesis of novel double network (DN) hydrogels with tunable mechanical properties using combinatorial screening methods is reported. Furthermore, nanoengineered (NE) hydrogels are constructed by addition of ultrathin 2D black phosphorus (BP) nanosheets to the DN hydrogels with multiple functions for mimicking the ECM microenvironment to induce tissue regeneration. Notably, it is found that the BP nanosheets exhibit intrinsic properties for induced CaP crystal particle formation and therefore improve the mineralization ability of NE hydrogels. Finally, in vitro and in vivo data demonstrate that the BP nanosheets, mineralized CaP crystal nanoparticles, and excellent mechanical properties provide a favorable ECM microenvironment to mediate greater osteogenic cell differentiation and bone regeneration. Consequently, the combination of bioactive chemical materials and excellent mechanical stimuli of NE hydrogels inspire novel engineering strategies for bone-tissue regeneration.

Keywords: ECM microenvironment; biomimetic mineralization; black phosphorus nanosheets; bone-tissue engineering; high-strength nanoengineered hydrogels.

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