Abstract
In his, very famous speech delivered in 1959, before the scientists of American Physical Society, Nobel Laureate Richard Feynman asked the scientists to derive the inspiration from Mother Nature to make the things smaller and see the advantages of making things smaller. Indeed the biological world, animal kingdom and plants make optimum use of materials and space. Nature indeed makes use of small spaces and corresponding confinement to synthesize inorganic materials or minerals abundantly found in earth’s crust. It uses insoluble, complex organic molecules as a reactor in which nucleation and growth of complex and hierarchical structures of inorganic materials takes place by reactions of organic soluble molecules. When we think of biological world, we normally think of delicate, temperature sensitive, carboneous or organic materials like leaves, roots, stems, cells, tissues and skin. Inorganic materials are also produced in biological systems. Bones, teeth, shells, nanomagnets inside the bodies of some bacteria and birds are some examples. Inorganic materials inside organic matter or organisms are known as biocomposites or biominerals. A variety of mechanically strong or weak, rigid or flexible, porous or nonporous, thick or thin materials either organic or inorganic in small or large quantities are abundantly produced in contact with live cells. These materials exhibit a wide variety in their functions like providing support to body, allow body movements and in general carry out various essential body functions.
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G.L. Hornyak, H.F. Tibbals, J. Dutta, J.J. Moore (eds.), Introduction to Nanoscience & Nanotechnology (CRS Press, Boca Raton, 2009)
S.K. Kulkarni (ed.), Special issue on nanomaterials. Phys. Educ. 19, (2002)
C.M. Lukehart, R.A. Scott (eds.), Nanomaterials: Inorganic and Bioinorganic Perspectives (Wiley, New York, 2008)
C.M. Niemeyer, C.A. Mikin (eds.), Nanobiotechnology: Concepts, Applications and Perspectives (Wiley, Weinheim, 2004)
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Kulkarni, S.K. (2015). Synthesis of Nanomaterials—III (Biological Methods). In: Nanotechnology: Principles and Practices. Springer, Cham. https://doi.org/10.1007/978-3-319-09171-6_5
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DOI: https://doi.org/10.1007/978-3-319-09171-6_5
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