Your search keyword '"Khan, Asif"' showing total 3 results

1. Electrical behavior of conducting polymer based ‘polymeric–inorganic’ nanocomposite: Polyaniline and polypyrrole zirconium titanium phosphate

Author

Khan, Asif Ali and Paquiza, Leena

Subjects

*CONDUCTING polymers, *ELECTRIC properties of polymers, *NANOCOMPOSITE materials, *ANILINE, *PYRROLES, *PHOSPHATES, *PRECIPITATION (Chemistry), *ELECTRIC conductivity

Abstract

Abstract: Composites are 21st century material used to meet the demand of improved materials and possess a combination of several desirable properties. Present study focussed on the conducting behavior of ‘polymeric–inorganic’ nanocomposite of conducting polymer polyaniline and polypyrrole. ‘Polymeric–inorganic’ nanocomposite cation-exchangers, i.e., polyaniline zirconium titanium phosphate (PANI-ZTP) and polypyrrole zirconium titanium phosphate (PPy-ZTP), were synthesized via sol–gel mixing of electrical conducting polymers into the matrices of inorganic precipitate of zirconium titanium phosphate (ZTP) having excellent ion exchange properties. The proposed nanocomposite possessed DC electrical conductivity in the semi-conducting range, i.e., 10−5–10−3 Scm−1. The stability in terms of DC electrical conductivity retention was also studied in an oxidative environment by two slightly different techniques viz. isothermal and cyclic techniques. The DC electrical conductivity of composite material was found stable upto 110°C under ambient conditions. [Copyright &y& Elsevier]

Published

2011

2. Ammonia vapor sensing properties of polyaniline–titanium(IV)phosphate cation exchange nanocomposite

Author

Khan, Asif Ali, Baig, Umair, and Khalid, Mohd.

Subjects

*AMMONIA, *ANILINE, *TITANIUM, *NANOCOMPOSITE materials, *TEMPERATURE effect, *SULFONIC acids, *ELECTRIC conductivity, *CATIONS, *DETECTORS

Abstract

Abstract: In this study, the electrically conducting polyaniline–titanium(IV)phosphate (PANI–TiP) cation exchange nanocomposite was synthesized by sol–gel method. The cation exchange nanocomposite based sensor for detection of ammonia vapors was developed at room temperature. It was revealed that the sensor showed good reversible response towards ammonia vapors ranging from 3 to 6%. It was found that the sensor with p-toluene sulphonic acid (p-TSA) doped exhibited higher sensing response than hydrochloric acid doped. This sensor has detection limit ≤1% ammonia. The response of resistivity changes of the cation exchange nanocomposite on exposure to different concentrations of ammonia vapors shows its utility as a sensing material. These studies suggest that the cation exchange nanocomposite could be a good material for ammonia sensor at room temperature. [Copyright &y& Elsevier]

Published

2011

3. Characterization and ion-exchange behavior of thermally stable nano-composite polyaniline zirconium titanium phosphate: Its analytical application in separation of toxic metals

Author

Khan, Asif Ali and Paquiza, Leena

Subjects

*DEIONIZATION of water, *PHOSPHATE removal (Water purification), *SEPARATION (Technology), *ANILINE, *HEAVY metals, *NANOCOMPOSITE materials, *CATIONS, *STABILITY (Mechanics)

Abstract

Abstract: A ‘polymeric-inorganic’ advanced nano-composite cation-exchanger has been synthesized via sol–gel technique by incorporating polyaniline into inorganic ion-exchanger, zirconium titanium phosphate, a class of mixed material of tetravalent bimetallic acid salts (TMA). The composite shows extraordinary high ion-exchange capacity of 4.52meqg−1 as well as good chemical and thermal stability than other polyaniline composites prepared so far. The physico-chemical property of the composite, polyaniline zirconium titanium phosphate (PAZTP) was determined using AAS, TEM, SEM, FTIR and TGA-DTA studies. Ion-exchange behavior was also observed to characterize the material. On the basis of distribution studies, the material was found to be highly selective for toxic heavy metal ions Hg(II) and Pb(II). The analytical applications of the material have been explored by achieving some binary as well as ternary separations of heavy metal ions. A comparative study of the ion-exchange properties of PAZTP with other polyaniline composites has been done. [ABSTRACT FROM AUTHOR]

Published

2011