Controlling the Surface Morphology of Two-Dimensional Nano-Materials upon Molecule-Mediated Crystal Growth

Abstract: The surface morphology of Mg-Al-layered double hydroxide (LDH) was successfully controlled by reconstruction during systematic phase transformation from calcined LDH, which is referred to as layered double oxide (LDO). The LDH reconstructed its original phase by the hydration of LDO with expanded basal spacing when reacted with water, including carbonate or methyl orange molecules. During the reaction, the degree of crystal growth along the ab-plane and stacking along the c-axis was significantly influenced by… Show more

“…Si is a suitable model substrate for displaying moth-eye effects because of its high refractive index ( n ≈ 3.5) and reflectance. In situ crystallization of layered materials 32–34 is not necessary for multiple processes. As an example of Mg silicate, a bundle of silicate layers (plate-like crystals) is preferentially and directly grown on amorphous silica microspheres 35,36 and their fibers 37 in an alkaline aqueous solution of Mg 2+ and dissolved silica.…”

Formation of moth-eye-like structures on silicon through in situ crystallization of layered Mg silicate

“…Si is a suitable model substrate for displaying moth-eye effects because of its high refractive index ( n ≈ 3.5) and reflectance. In situ crystallization of layered materials 32–34 is not necessary for multiple processes. As an example of Mg silicate, a bundle of silicate layers (plate-like crystals) is preferentially and directly grown on amorphous silica microspheres 35,36 and their fibers 37 in an alkaline aqueous solution of Mg 2+ and dissolved silica.…”

Formation of moth-eye-like structures on silicon through in situ crystallization of layered Mg silicate

Unveiling the properties of layered 2D-based nano-material flexible electronics in biomedical applications: a review