Fibrous Bundles in Biomorph Systems: Surface‐Specific Growth and Interaction with Microposts

Abstract: Biomorphs are polycrystalline assemblies that form when barium, silicate, and carbonate ions react in basic solutions. Their micrometer‐scale morphologies include leaf‐like sheets, helices, and cones, while their nanoscale architecture is based on co‐aligned witherite nanorods. We report a biomorph shape that resembles hair strands that smoothly curl into spirals or twisting fiber ribbons. They can thicken through continuous fractal‐like branching or abrupt events in which fibers split simultaneously. Raman an… Show more

“…21–27 This bioinspired reaction yields a wide diversity of shapes and symmetries such as vases, helices and coral-like forms that can be further sculpted and patterned by controlling the reaction conditions. 28–32 These morphologies show optical properties such as waveguiding and polarization. 33 Moreover post-process surface functionalization, 34–36 and ion exchange reactions have been developed towards a wide range of chemical compositions to introduce optoelectronic, 37,38 catalytic, 39 and magnetic 40 functionalities with preservation of the initial morphology.…”

Light-controlled morphological development of self-organizing bioinspired nanocomposites

“…21–27 This bioinspired reaction yields a wide diversity of shapes and symmetries such as vases, helices and coral-like forms that can be further sculpted and patterned by controlling the reaction conditions. 28–32 These morphologies show optical properties such as waveguiding and polarization. 33 Moreover post-process surface functionalization, 34–36 and ion exchange reactions have been developed towards a wide range of chemical compositions to introduce optoelectronic, 37,38 catalytic, 39 and magnetic 40 functionalities with preservation of the initial morphology.…”

Light-controlled morphological development of self-organizing bioinspired nanocomposites

Downward fingering accompanies upward tube growth in a chemical garden grown in a vertical confined geometry

Characteristic growth of chemical gardens from mixtures of two salts