Biomimetic ultralight, highly porous, shape‐adjustable, and biocompatible 3D graphene minerals via incorporation of self‐assembled peptide nanosheets
Hybrid nanomaterials with tailored functions, consisting of self‐assembled peptides, are
intensively applied in nanotechnology, tissue engineering, and biomedical applications due
to their unique structures and properties. Herein, a peptide‐mediated biomimetic strategy is
adopted to create the multifunctional 3D graphene foam (GF)‐based hybrid minerals. First,
2D peptide nanosheets (PNSs), obtained by self‐assembling a motif‐specific peptide
molecule (LLVFGAKMLPHHGA), are expected to exhibit biofunctionality, such as the …
intensively applied in nanotechnology, tissue engineering, and biomedical applications due
to their unique structures and properties. Herein, a peptide‐mediated biomimetic strategy is
adopted to create the multifunctional 3D graphene foam (GF)‐based hybrid minerals. First,
2D peptide nanosheets (PNSs), obtained by self‐assembling a motif‐specific peptide
molecule (LLVFGAKMLPHHGA), are expected to exhibit biofunctionality, such as the …
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