Caiyun Su scite author profile

Here, hierarchical hollow barium carbonate (BaCO 3 ) with different sizes and morphologies can be obtained by a simple one-pot approach in the presence of soluble starch. Instead of dendritic crystals obtained without soluble starch, the morphology with hierarchical hollow BaCO 3 superstructure can be systematically changed from shuttle-like to cauliflower-like with the reaction time. In addition, the highly effective additive also acts as a crystal size-controlled modifier over a range of concentrations. Detailed analysis of the crystal substructures with field-emission scanning electron microscope (FESEM), transmission electron microscopy (TEM) and high-resolution transmission electron microscopy (HRTEM) disclose that the hierarchical hollow shuttle-like BaCO 3 superstructures are firstly synthesized by self-assembly and Ostwald ripening process. Then, the fractal splitting mechanism is adopted to introduce the synthesis of the hierarchical hollow BaCO 3 crystals with different morphologies at the different reaction time. Our present work not only provides a method to fabricate the different morphologies and sizes of BaCO 3 particles with hollow superstructures, which can be used in many industrial applications, but also sheds light on the Ostwald ripening and the fractal splitting mechanism of biomimetic mineralization induced by organic additives.

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Preparation of highly ordered hierarchical CaCO3 hemisphere and the application as pH value-sensitive anticancer drug carrier

Ma¹,

Li²,

Yang³

et al. 2011

Materials Letters

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Caiyun Su

Adsorption of heavy metal ions using hierarchical CaCO3–maltose meso/macroporous hybrid materials: Adsorption isotherms and kinetic studies

Preparation of hybrid CaCO3–pepsin hemisphere with ordered hierarchical structure and the application for removal of heavy metal ions

Fabrication and potential applications of CaCO3–lentinan hybrid materials with hierarchical composite pore structure obtained by self-assembly of nanoparticles

Size- and morphology-controlled biomimetic synthesis of hierarchical hollow BaCO3

Preparation of highly ordered hierarchical CaCO3 hemisphere and the application as pH value-sensitive anticancer drug carrier

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