Dioxin Research : K. P. Prathish » Publications

  1. M. M. Barsan, K. P. Prathish, X. Sun, C. M. A. Brett, Nitrogen doped graphene and its
    derivatives as sensors and efficient direct electron transfer platform for enzyme biosensors
    Sensors and Actuators B, 203 (2014) 579-587.
  2. K. P. Prathish, R.C. Carvalho, C. M. A. Brett Highly sensitive poly(3,4
    ethylenedioxythiophene) modified electrodes by electropolymerisation in deep eutectic
    solvents, Electrochemistry Communications, 44 (2014) 8-11.
  3. K. P. Prathish, M. M. Barsan, D. Geng, X. Sun, C. M. A. Brett Chemically modified
    graphene and nitrogen-doped graphene: Electrochemical characterisation and sensing
    applications, Electrochimica Acta 114 (2013) 533– 542.
  4. R.C. Carvalho, A. Mandil, K. P. Prathish, A. Amine, C.M.A. Brett Carbon nanotube, carbon
    black and copper nanoparticle modified screen printed electrodes for amino acid
    determination, Electroanalysis, 25(2013) 903-913.
  5. V.Vishnuvardhan, Y. Kalyan, K. P. Prathish, B. Gangadhar, Y. Tharakeswar, T. Prasada
    Rao, G. R. K. Naidu, Imprinted polymer inclusion membrane based potentiometric sensor for
    determination and quantification of diethyl chlorophosphate in natural waters, American J. of
    Anal. Chem., 2(2011) 376-382.
  6. V. Saumya, K. P. Prathish, T. Prasada Rao In situ copper oxide modified molecularly
    imprinted polypyrrole film based voltammetric sensor for selective recognition of tyrosine,
    Talanta 85(2011) 1056-1062.
  7. V. Saumya, K. P. Prathish, T.Prasada Rao Mechanistic aspects of tyrosine sensing on
    in situ copper oxide modified molecularly imprinted polypyrrole coated glassy carbon
    electrode J. Electroanal. Chem. 663(2011)53-58.
  8. 8. M. T. Elias, K. P. Prathish, T. Prasada Rao, Synthesis of surface imprinted nanospheres for
    selective removal of uranium from simulants of sambhar salt lake and ground water, Journal
    of Hazardous Materials 188 (2011) 384–390
  9. R. Sindhu, K. P. Prathish, G. Karthik, T. Prasada Rao Hybrid gold atomic cluster-cobalt
    oxide scaffolds for dual tandem electrocatalytic sensing of cysteine, Biosensors and Bioelectronics 26 (2011) 3920–3926.
  10. P. K. Aneesh, K. P. Prathish, R. Kala, T. Prasada Rao Lanthanum carbonate incorporated
    chitosan microparticles for phosphate collection, Reactive & Functional Polymers 69 (2009)
    714–718.
  11. K. P. Prathish, D. James, J. Jaisy, T. Prasada Rao Dual optoelectronic visual detection and
    quantification of spectroscopically silent heavy metal toxins: A multi- measurand sensing
    strategy based on rhodamine 6G as chromo or fluoro ionophore, Anal.Chim. Acta 647
    (2009) 84–89.
  12. K. P. Prathish, V.Vishnuvardhan, T.Prasada Rao, Rational design of in-situ monolithic
    imprinted polymer membranes for the potentiometric sensing of diethyl chlorophosphate – A
    chemical warfare agent simulant, Electroanalysis, 21(2009)1048-1056.
  13. V. Vishnuvardhan, K. P. Prathish, G. R. K. Naidu, T. Prasada Rao, Fabrication and
    topographical analysis of non-covalently imprinted polymer inclusion membranes for the
    selective sensing of pinacolyl methylphosphonate-A simulant of soman Electrochim.Acta, 52
    (2007) 6922-6928.
  14. K. Prasad, K. P. Prathish, J. M. Gladis, T. Prasada Rao, Design and Development of
    Imprinted Polymer inclusion membrane-based field monitoring device for trace determination
    of Phorate ( O,O-Diethyl S-Ethyl Thiomethyl phosphorodithioate) in natural waters
    Electroanalysis,19(2007)1195- 1200.
  15. K. Prasad, K. P. Prathish, J. M. Gladis, G. R. K. Naidu and T. Prasada Rao, Molecularly
    imprinted polymer (biomimetic) potentiometric sensor for atrazine, Sensors & Actuators B:
    Chemical, 123(2007) 65-70.
  16. K. P. Prathish, K. Prasad, T.Prasada Rao, M.V.S. Suryanarayana, Molecularly imprinted
    polymer based potentiometric sensor for degradation product of chemical warfare agents-Part
    1. Methyl phosphonic acid. Talanta, 71(2007) 1976-1980.