Controlled Synthesis of Hydrogen Titanate−Polyaniline Composite Nanowires and Their Resistance−Temperature Characteristics
The Journal of Physical Chemistry C2009Vol. 113(18), pp. 7610–7615
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Abstract
We report here an in situ polymerization method for the controlled synthesis of core−shell structured hydrogen titanate−polyaniline composite nanowires. The microstructure and physical properties of the composite nanowires were characterized with XRD, FESEM, TEM, FT-IR, thermal analysis, and UV−vis spectroscopy. It is found that the thermal stability of polyaniline in the composite is greatly improved. A hydrogen bond-assisted formation mechanism is proposed to account for the experimental observation. In addition, the temperature dependence of electrical conductivity of an individual composite nanowire was measured as a function of temperature, which reveals improved conductivity compared with hydrogen titanate nanobelt.
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