Some Recent Publications

  1. A study of polypyrrole films formed at the liquidjvapor interface.  Nath, Archana; Contractor, A.Q.; Journal of Electroanalytical Chemistry (2004), 571, 9–14. [PDF]

  2. Microtubule sensors and sensor array based on polyaniline synthesized in the presence of Poly(styrene sulfonate).  Kanungo, Mandakini; Kumar, Anil;  Contractor, A. Q.; Analytical Chemistry (2003), 75, 5673-5679. [PDF]

  3. In situ measurement of pH in the interior of conducting polymer microtubules. Nath, Archana; Kanungo, Mandakini; Contractor, A. Q.; Journal of Electroanalytical Chemistry (2003), 557, 119-125. [PDF]

  4. Studies on electropolymerization of aniline in the presence of sodium dodecyl sulfate and its application in sensing urea.     Kanungo, Mandakini; Kumar, Anil; Contractor, A. Q;    Journal of Electroanalytical Chemistry  (2002),  528(1-2),  46-56. [PDF]

  5. Conductimetric immunosensor based on poly(3,4-ethylenedioxythiophene).     Kanungo, Mandakini; Srivastava, Divesh. N.; Kumar, Anil; Contractor, A. Q;    Chemical Communications (Cambridge, United Kingdom)  (2002),   (7),  680-681. [PDF]

  6. Electrochemical synthesis of fully sulfonated n-dopable polyaniline: poly (metanilic acid). Krishnamoorthy, K.; Contractor, A. Q.; Kumar, Anil.;  Chemical Communications (Cambridge, United Kingdom)  (2002),   (3),  240-241. [PDF]

  7. Rational design of an electrochromic polymer with high contrast in the visible region: dibenzyl substituted poly(3,4-propylenedioxythiophene).  Krishnamoorthy, K.; Ambade, Ashootosh V.; Kanungo, Mandakini; Contractor, A. Q.; Kumar, Anil; Journal of Materials Chemistry  (2001),  11(12),  2909-2911. [PDF]

  8. Electrochromic polymer based on a rigid cyanobiphenyl substituted 3,4-ethylenedioxythiophene. Krishnamoorthy, K.; Kanungo, Mandakini; Contractor, A. Q.; Kumar, Anil;  Synthetic Metals  (2001),  124(2-3),  471-475. [PDF]

  9. Molecular Sensors and Sensor Arrays Based on Polyaniline Microtubules. Sukeerthi, S.; Contractor, A. Q.; Analytical Chemistry  (1999), 71(11),  2231-2236. [PDF]

  10. Electrochemistry of polyaniline Langmuir-Blodgett films. Dabke, R. B.; Dhanabalan, A.; Major, S.; Talwar, S. S.; Lal, R.; Contractor, A. Q.; Thin Solid Films  (1998),  335(1,2),  203-208. [PDF]

  11. A Study of Polyaniline Microtubules: Toward Superior Transducing Abilities. Sukeerthi, S.; Contractor, A. Q.; Chemistry of Materials  (1998),  10(9),  2412-2418. [PDF]

  12. A study of Langmuir and Langmuir-Blodgett films of polyaniline.     Dhanabalan, A.; Dabke, R. B.; Kumar, N. Prasanth; Talwar, S. S.; Major, S.; Lal, R.; Contractor, A. Q.; Langmuir  (1997),  13(16),  4395-4400. [PDF]

  13. An Ion-Activated Molecular Electronic Device. Dabke, R. B.; Singh, G. D.; Dhanabalan, A.; Lal, R.; Contractor, A. Q.; Analytical Chemistry  (1997),  69(4),  724-727. [PDF]

  14. A Biosensor Array Based on Polyaniline. Sangodkar, H.; Sukeerthi, S.; Srinivasa, R. S.; Lal, R.; Contractor, A. Q.; Analytical Chemistry (1996), 68(5), 779-83. [PDF]

  15. Conducting polymer-based biosensors. Contractor, A. Q.; Sureshkumar, T. N.; Narayanan, R.; Sukeerthi, S.; Rakesh, Lal; Srinivasa, R. S.; Electrochimica Acta  (1994),  39(8-9),  1321-4. [PDF]

  16. A biosensor based on conducting polymers. Hoa, D. T.; Kumar, T. N. Suresh; Punekar, N. S.; Srinivasa, R. S.; Lal, R.; Contractor, A. Q.; Analytical Chemistry  (1992),  64(21),  2645-6. [PDF]

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This Page was last edited- 03/03/2005 06:05:32 PM