Your search keyword '"Calcium carbonate nanoparticles"' showing total 103 results

101. Synthesis and characterization of polymer-mediated biomimetic calcium carbonate materials

Author

Krishna Pai, Ranjith

Subjects

Biomineralization, DDC 540 / Chemistry & allied sciences, Miniemulsion technique, Acrylamide based water-soluble polymers, Low molecular weight additives, Sulphonic acid functional polymers, Calcium carbonate nanoparticles, Naturnachahmung, Biomimetics, ACC deposits of Porcellio scaber, ddc:540, Amorphous calcium carbonate, AMPS based polymers, Nanoparticles, Double decomposition reaction, Stable amorphous calcium carbonate, Calcium carbonate, Biomimetische Synthese

Abstract

Synthesis of inorganic nanoparticles is currently recognized as an important theme in nanoscience. Calcium carbonate (CaCO3) nanoparticles (< 100 nm) have many unique properties compared to regular CaCO3 particles. CaCO3 is an important mineral, exhibits different shapes and colors, depending on the conditions at its formation and the nature of additives present during growth. Many living organisms are well able to synthesize highly optimized composite materials by means of template controlled mineralization as in pearls, shells, etc. For example, amorphous calcium carbonate (ACC) deposits of Porcellio scaber (land-based woodlice) are built of numerous spherules associated with an organic matrix that consists of radial and concentric elements, suggesting that the organic components function as a template for spherule formation. Recent efforts to duplicate the natural process of biomineralization in the laboratory have come to be known as biomimetic methods for synthesis. An understanding of the mechanism involved in such a matrix-mediated synthesis has been recognized to be of great potential in the production of engineered materials. In the present study, Porcellio scaber is used as a model to investigate the dissolution behavior of biogenic ACC by atomic force microscopy which provides a new way to investigate the stabilizing properties of matrix components. Biological systems manage to control crystal growth to high degrees of specificity by using a wide range of natural additives: from basic metal ions to complex organic polymers. In this context, an examination of how CaCO3 growth is affected by water-soluble polymers and low molecular weight additives will provide further insight and information. Here the synthesis of CaCO3 was followed by two synthetic routes: double decomposition reaction (a simple route, but it is difficult to control the shape and modification of CaCO3) and miniemulsion method (CaCO3 synthesis was performed in 1018 - 1020 nanocompartments which are separated from each other by a continuous phase). ACC is a fascinating form of CaCO3 that may well be of much interest to materials science and biomineralization. ACC in its pure form is highly unstable, yet some organisms produce stable ACC, and cases are known in which ACC function as a transient precursor of more stable crystalline CaCO3. By using miniemulsion technique, I have synthesized ACC nanoparticles which are stable in solution and also in the dry state for several days.

Published

2005

102. Robust and Superhydrophobic Surface Modification by a "Paint + Adhesive" Method: Applications in Self-Cleaning after Oil Contamination and Oil-Water Separation.

Author

Chen B, Qiu J, Sakai E, Kanazawa N, Liang R, and Feng H

Abstract

Conventional superhydrophobic surfaces have always depended on expensive, sophisticated, and fragile roughness structures. Therefore, poor robustness has turned into the bottleneck for large-scale industrial applications of the superhydrophobic surfaces. To handle this problem, a superhydrophobic surface with firm robustness urgently needs to be developed. In this work, we created a versatile strategy to fabricate robust, self-cleaning, and superhydrophobic surfaces for both soft and hard substrates. We created an ethanol based suspension of perfluorooctyltriethoxysilane-mdodified calcium carbonate nanoparticles which can be sprayed onto both hard and soft substrates to form superhydrophobic surfaces. For all kinds of substrates, spray adhesive was directly coated onto abluent substrate surfaces to promote the robustness. These superhydrophobic surfaces showed remarkable robustness against knife scratch and sandpaper abrasion, while retaining its superhydrophobicity even after 30 abrasion cycles with sandpaper. What is more, the superhydrophobic surfaces have shown promising potential applications in self-cleaning and oil-water separation. The surfaces retained their self-cleaning property even immersed in oil. In addition to oil-water separation, the water contents in oil after separation of various mixtures were all below 150 ppm, and for toluene even as low as 55 ppm. Furthermore, the as-prepared device for oil-water separation could be cycled 6 times and still retained excellent oil-water separation efficiency.

Published

2016

103. SURFACE-ENGINEERED MINERAL PARTICLES FOR GATED DRUG DELIVERY, GENE TRANSFER AND SUNSCREEN FORMULATIONS

Author

Grigoriy Sereda, Hasan, Mahadi, Grigoriy Sereda, and Hasan, Mahadi