IngentaConnect Pore Architecture of Diatom Frustules: Potential Nanostructured M...

Authors: Losic, Dusan; Rosengarten, Gary; Mitchell, James G.; Voelcker, Nicolas H.

Source: Journal of Nanoscience and Nanotechnology, Volume 6, Number 4, April 2006 , pp. 982-989(8)

Publisher: American Scientific Publishers

Abstract:

Diatoms produce diverse three-dimensional regular silica structures with nanometer to micrometer dimensions and hold considerable promise for biological and biomimetic fabrication of nanostructured materials and devices. In the present work, we describe the ultrastructural characterization of porous structures in diatom biosilica and discuss their potential as membrane filters for diffusion based separations. The frustules of two centric diatom species, Coscinodiscus sp. and Thalassiosira eccentrica, were investigated using scanning electron microscopy and atomic force microscopy. Their morphological features, including pore size, shape, porosity, and pore organization, are described. We observed that although pore organization in frustules of Thalassiosira eccentrica and Coscinodiscus sp. is in reverse order, a striking commonality is the size range of the smallest pores in both species (around 40 nm). The consensus lower pore size suggests that frustule valves have a common function at this size of excluding viruses or other deleterious particles, and the pore size and organization is optimized for this purpose. We suggest and implement an experimental approach to study the potential of diatom frustules for diffusive separation of molecular or nanoparticular components in microfluidic or lab-on-a-chip environments.

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Pore Architecture of Diatom Frustules: Potential Nanostructured Membranes for Molecular and Particle Separations