Synthesis of nanocomposites using glasses and mica as templates

Chakravorty, D. ; Basu, S. ; Pal, B. N. ; Mukherjee, P. K. ; Ghosh, B. ; Chatterjee, K. ; Bose, A. ; Bhattacharya, S. ; Banerjee, A. (2008) Synthesis of nanocomposites using glasses and mica as templates Bulletin of Materials Science, 31 (3). pp. 263-276. ISSN 0250-4707

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Official URL: http://www.ias.ac.in/matersci/bmsjun2008/263.pdf

Related URL: http://dx.doi.org/10.1007/s12034-008-0044-y

Abstract

Various nanocomposites were synthesized using either a silica-based glass or mica crystallites as the medium. In some cases by an oxidation or a sulfidation treatment a core-shell nanostructure could be generated. Iron-iron oxide core-shell structured nanocomposites exhibited excellent humidity sensing behaviour. Gold-gold sulfide core-shell nanorods exhibited a number of optical absorption peaks which arose because of their structural characteristics. Nanoparticles of silver and silver oxide could be aligned in a polymethylmethacrylate film by an a.c. electric field of 1 MHz frequency. The composites showed large sensitivity to relative humidity. Lead sulfide nanowires of diameter, 1.2 nm, were grown within the nanochannels of Na-4 mica. These exhibited a semiconductor to metal transition at around 300 K. This arose because of high pressure generated on the nanowires. Copper sulfide nanowires grown within the Na-4 mica channels showed metallic behaviour. Silver core-silver orthosilicate shell nanostructures developed within a silicate glass medium showed discontinuous changes in resistivity at some specific temperatures. This was explained as arising due to excitation of Lamb modes at certain pressures generated because of thermal expansion mismatch of the core and the shell phases. Optical properties of iron core-iron oxide shell nanocomposites when analysed by effective medium theory led to the result of a metal non-metal transition for particle diameters below a critical value. Similar results were obtained from optical absorption data of silver nanoparticles grown in a tetrapeptide solution.

Item Type:Article
Source:Copyright of this article belongs to Indian Academy of Sciences.
Keywords:Synthesis; Nanocomposites; Glasses; Mica
ID Code:7310
Deposited On:25 Oct 2010 11:52
Last Modified:16 May 2016 17:32

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