Freeze casting, also known as ice templating, is a particularly versatile technique that has
been applied extensively for the fabrication of well‐controlled biomimetic porous materials …

The graphene family has captured the interest and the imagination of an increasing number
of scientists working in different fields, ranging from composites to flexible electronics. In the …

Carbon nanomaterials are a class of low-dimensional materials that have aroused a great
deal of interest in the past 30 years since the spectacular debut of fullerene, the first member …

Two‐dimensional (2D) nanomaterials are ultrathin nanomaterials with a high degree of
anisotropy and chemical functionality. Research on 2D nanomaterials is still in its infancy …

Functional graphene nanomaterials (FGNs) are fast emerging materials with extremely
unique physical and chemical properties and physiological ability to interfere and/or interact …

Freeze-casting produces materials with complex, three-dimensional pore structures which
may be tuned during the solidification process. The range of potential applications of freeze …

Graphene, as a promising biomaterial, has received great attention in biomedical fields due
to its intriguing properties, especially the conductivity and biocompatibility. Given limited …

The graphene oxide (GO) has attracted tremendous attention in biomedical fields. In order to
combine the unique physicochemical properties of GO nanosheets with topological structure …

The sustained extensive research on graphene and its derivatives in the last decade
portrayed its significance in the field of material science and carved its own niche in …

Presently, clinical nanomedicine and nanobiotechnology have impressively demanded the
generation of new organic/inorganic analogues of graphene (as one of the intriguing …