International E-publication: Publish Projects, Dissertation, Theses, Books, Souvenir, Conference Proceeding with ISBN.  International E-Bulletin: Information/News regarding: Academics and Research

Lead(II)-selective Ionophore based electrochemical sensors - A mini review

    ,

Author Affiliations

  • 1Department of Chemistry, Punjabi University Patiala-147 002, Panjab, India
  • 2Department of Chemistry, Punjabi University Patiala-147 002, Panjab, India

Res.J.chem.sci., Volume 7, Issue (7), Pages 50-55, July,18 (2017)

Abstract

The recent advances in lowering the detection limits of ISEs, including fresh methodologies of emerging electrochemical sensors and advances in detecting ultra-small amounts of ions at low concentrations. These progresses have covered the mode to use polymeric membrane based ion selective electrode as in ultra-sensitive affinity bio analysis in aggregation with nanoparticle because of the toxic effect of lead (II) ion, it is needed to examine lead(II) spreading in water resources. This may be accomplished by execution of electrochemical sensors with low detection limit and greater selectivity towards lead(II) ion. Number of ionophores were created and studied for lead(II) ion detection. In this paper Pb(II) ion-selective ionophores based on last 6 year work are collected and gives a general explanation and review on the developed and existing ionophores for Pb(II)-selective electrochemical sensors.

References

  1. Lin C., Jie W. and Huangxian J. (2015)., Electrochemical sensing of heavy metal ions with inorganic, organic and bio-materials., Biosens.Bioelectron, 63, 276-286.
  2. Gupta Vinod K., Ganjali M.R., Norouzi P., Khani H., Nayak Arunima and Agarwal Shilpi (2011)., Electrochemical Analysis of Some Toxic Metals by Ion–Selective Electrodes., Crit. Rev. Anal. Chem., 41(4), 282-313.
  3. Sayed Y.K., Mojtaba S. and Hashem S. (2009)., Lead-selective poly(vinyl chloride) electrodes based on some synthesized benzo-substituted macrocyclic diamides., J. Hazard. Mater., 172, 68-73.
  4. Danielle W.K., Gabriel L., Mika E.M. and David E.C. (2012)., Electrochemical Sensors and Biosensors., Anal Chem., 84(2), 685-707.
  5. Gregory M., Tuan D.N. and Benoit P. (2015)., Modified Electrodes Used for Electrochemical Detection of Metal Ions in Environmental Analysis., Biosensors (Basel), 5(2), 241-275.
  6. Manju B.G., Swaminathan S., Uma M.K. and John B.B.R. (2015)., A review on detection of heavy metal ions in water – An electrochemical approach., Sens Actuators B Chem, 213, 515-533.
  7. Shailendra K.P., Priti S., Jyoti S., Sadhana S., Sameer S. and Sunil K.S. (2016)., Nanocarbon-based Electrochemical Detection of Heavy Metals., Electroanalysis, 28, 1-18.
  8. Li Ming, Gou Honglei, Al-Ogaidi Israa and Wu Nianqiang (2013)., Nanostructured Sensors for Detection of Heavy Metals: A Review., ACS Sustainable Chem. Eng., 1(7), 713-723.
  9. Hangjia S., Danfeng Q., Yuzhen L., Shouzhu L., Chi Y., Qunhui Y., Thomas W. and Guangzhi H. (2016)., Magnesiothermal Synthesis of MesoporousMgO/OMC Composite for Sensitive Detection of Lead Ions., Electroanalysis, 28, 1-9.
  10. Mathew Sobhana, Rajith Leena, Lonappan Laina Angamaly, Jos Theresa and Kumar Krishnapillai Girish (2014)., A lead (II) selective PVC membrane potentiometric sensor based on a tetraazamacrocyclic ligand., J InclPhenomMacrocycl Chem., 78(1), 171-177.
  11. Seenivasan Rajesh, Chang Woo-Jin and Gunasekaran Sundaram (2015)., Highly Sensitive Detection and Removal of Lead Ions in Water Using Cysteine-Functionalized Graphene Oxide/PolypyrroleNanocomposite Film Electrode., ACS Appl. Mater. Interfaces, 7(29), 15935-15943.
  12. Shunyang Y., Qun Y., Fuhai L., Yongming L. (2012)., Improved potentiometric response of all-solid-state Pb2+-selective electrode., Talanta., 101, 546-549.
  13. Tarley C.R.T., Andrade F.N., de Santana H., Zaia D.A.M., Beijo L.A. and Segatelli M.G. (2012)., Ion-imprinted polyvinylimidazole-silica hybrid copolymer for selective extraction of Pb(II): Characterization and metal adsorption kinetic and thermodynamic studies., React. Funct. Polym., 72, 83-91.
  14. Homafar A., FarzadMaleki F. and Zahra Abbasi Z. (2013)., Lead (II)-Selective Polymeric Electrode Using PVC Membrane Based on a Schiff Base Complex of 1,2- Bis(SalicylidinAminooxy) Ethane As an Ionophore., Energy and Environmental Engineering., 1(3), 99-104.
  15. Kumar P., Kumar A. and Mittal K.S. (2014)., N′, N′′, N′′′-tris(2-pyridyloxymethyl) ethane as ionophore in potentiometric sensor for Pb(II) ions., J. Chem. Sci., 126(1), 33-40.
  16. Guziński M., Lisak G., Kupis J., Jasiński A. and Bocheńska M. (2013)., Lead(II)-selective ionophores for ion-selective electrodes: A review., Anal. Chim. Acta., 791, 1-12.
  17. Sigma-Aldrich. http://www.sigmaaldrich.com, visited 8th of March, (2013)., undefined, undefined
  18. Kulesza J. and Bochenska M. (2011)., Calixthioamides as Ionophores for Transition- and Heavy-Metal Cations., Eur. J. Inorg. Chem., 6, 777-783.
  19. Wilson D., Arada M.A., Alegret S. and del Valle M. (2010)., Lead(II) ion selective electrodes with PVC membranes based on two bis-thioureas as ionophores: 1,3-bis(N′-benzoylthioureido)benzene and 1,3-bis(N′-furoylthioureido)benzene., J. Hazard. Mater.,181, 140-146.
  20. Singh S., Rani G., Singh G. and Agarwala H. (2013)., Comparative study of lead (II) selective poly (vinyl chloride) membrane electrodes based on podand derivatives as ionophores., Electroanalysis, 25(2), 475-485.
  21. Huang M.R., Ding Y.B. and Li X.G. (2013)., Lead-ion potentiometric sensor based on electrically conducting microparticles of sulfonic phenylenediamine copolymer., Analyst., 138(13), 3820-3829.
  22. Inamuddin N.M., Rangreez T.A. and Alothman Z.A. (2012)., Ion-selective potentiometric determination of Pb(II) ions using PVC-based carboxymethyl cellulose Sn(IV) phosphate composite membrane electrode., Desalination and Water Treatment., 56(3), 806-813.
  23. Pazik A. and Skwierawska A. (2012)., Chromogenic derivatives of new bis(phenylhydrazono-1H-tetrazol-5-yl-acetonitriles) – synthesis and properties., Supramol. Chem., 24(10), 726-737.
  24. Kumar P., Joseph A., Ramamurthy P.C. and Subramanian S. (2012)., Lead ion sensor with electrodes modified by imidazole-functionalized polyaniline., MicrochimActa., 177(3-4), 317-323.
  25. Khan A.A. and Baig U. (2012)., Electrically conductive membrane of polyaniline–titanium(IV)phosphate cation exchange nanocomposite: Applicable for detection of Pb(II) using its ion-selective electrode., Journal of Industrial and Engineering Chemistry., 18(6), 1937-1944.
  26. Ghaedi M., Montazerozohori M., Andikaey Z., Shokrollahi A., Khodadoust S., Behfar M. and Sharifi S. (2011)., Fabrication of Pb2+ Ion Selective Electrode Based on 1-((3-((2-Hydroxynaphthalen-1-yl)Methyleneamino)-2,2- Dimethylpropylimino)Methyl)Naphthalen-2-ol as New Neutral Ionophore., Int. J. Electrochem. Sci., 6, 4127-4140.
  27. Xiao-Ju Y., Rui-Ying W., Chun-Bo M., Lian W., Cai-Qing C., Rui Y., Zhi Y.G., Ben L.W. and Zhang H. (2012)., New Pb(II)-selective membrane electrode based on a new Schiff base complex., Inorganic Chemistry Communications., 15,29-32.
  28. Abraham A.A., Rezayi M., Manan S.A.N., Narimani L., Rosli A.N.B. and Alias Y. (2015)., A Novel Potentiometric Sensor Based on 1,2-Bis(N’-benzoylthioureido) benzene and Reduced Graphene Oxide for Determination of Lead (II) Cation in Raw Milk., Electrochim. Acta.., 165, 221-231.
  29. Wardak C. (2011)., A highly selective lead-sensitive electrode with solid contact based on ionic liquid., J Hazard Mater., 186(2-3), 1131-1135.
  30. Ion I., Culetu A., Costa J., Luca C. and Ion A.C. (2010)., Polyvinyl chloride-based membranes of 3,7,11-tris (2-pyridylmethyl)-3,7,11,17-tetraazabicyclo[11.3.1]heptadeca -1(17),13,15-triene as a Pb(II)-selective sensor., Desalination., 259, 38-43.
  31. Huang M.R., Rao X.W., Li X.G. and Ding Y.B. (2011)., Lead ion-selective electrodes based on polyphenylenediamine as unique solid ionophores., Talanta., 85(3), 1575-1584.
  32. Guo J., Chai Y., Yuan R., Song Z. and Zou Z. (2011)., Lead (II) carbon paste electrode based on derivatized multi-walled carbon nanotubes: Application to lead content determination in environmental samples., Sensors and Actuators B., 155, 639-645.
  33. Ganjali M.R., Motakef K.N., Faridbod F., Khoee S. and Norouzi P. (2010)., Determination of Pb2+ ions by a modified carbon paste electrode based on multi-walled carbon nanotubes (MWCNTs) and nanosilica., J Hazard Mater., 173(1-3), 415-419.
  34. Abbaspour A., Mirahmadi E., Khalafi-nejad A. and Babamohammadi S. (2010)., A highly selective and sensitive disposable carbon composite PVC-basedmembrane for determination of lead ion in environmental samples., J Hazard Mater., 174, 656-661.
  35. Li X.G., Feng H., Huang M.R., Gun G.L. and Moloney M.G. (2012)., Ultrasensitive Pb(II) Potentiometric Sensor Based on Copolyaniline Nanoparticles in a Plasticizer-Free Membrane with a Long Lifetime., Anal. Chem., 84(1), 134-140.
  36. Soleymanpour A., Shafaatian B., Kor K. and Hasaninejad A.R. (2012)., Coated wire lead(II)-selective electrode based on a Schiff base ionophore for low concentration measurements., Monatsh Chem., 143(2), 181-188.
  37. Rassaei L., Marken F., Sillanpää M., Amiri M., Cirtiu C.M. and Sillanpää M. (2011)., Nanoparticles in electrochemical sensors for environmental monitoring., Trends Anal. Chem., 30(11), 1704-1715.
  38. Oyama M. (2010)., Recent nanoarchitectures in metal nanoparticlemodified electrodes for electroanalysis., Anal. Sci., 26, 1-12.
  39. Aragay G. and Merkoci A. (2012)., Nanomaterials application in electrochemical detection of heavy metals., Electrochim.Acta.,84, 49-61.
  40. Khairy M., Choudry N.A., Ouasti M., Kampouris D.K., Kadara R.O. and Banks C.E. (2010)., Gold nanoparticle ensembles allow mechanistic insights into electrochemical processes., Chem Phys Chem., 11, 875-879.
  41. Bagheri H., Afkhami A., Khoshsafar H., Rezaei M. and Shirzadmehr A. (2013)., Simultaneous electrochemical determination of heavy metals using a triphenylphosphine / MWCNTs composite carbon ionic liquid electrode., Sens Actuators, B., 186, 451-460.
  42. Afkhami A., Bagheri H., Khoshsafar H., Saber-Tehrani M., Tabatabaee M. and Shirzadmehr A. (2012)., Simultaneous trace-levels determination of Hg (II) and Pb (II) ions in various samples using a modified carbon paste electrode based on multi-walled carbon nanotubes and a new synthesized Schiff base., Anal. Chim. Acta., 746, 98-106.