Dr. Ajaya Kumar Singh
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Dr. Ajaya Kumar Singh

Associate Professor
Govt. V.Y.T. PG. Autonomous College, India

Highest Degree
Ph.D. in Chemistry from University of Allahabad, Allahabad, India

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Biography

Dr. Ajaya Kumar Singh is currently working as Associate Professor at Department of Chemistry, Govt. V. Y. T. PG. Autonomous College, India. He has completed his Ph. D in Chemical Kinetics from University of Allahabad, Allahabad, (UP). His main area of research related to Synthesis and Characterization of Nano-crystalline Solid Thin films, Oxidation Kinetics and Catalysis, Micellar Catalysis, Homogeneous Catalysis. He is fellow and life member of Indian Association of Chemistry Teachers, Luminescence Society of India, Indian Chemical Society, Kolkata, Indian Science Congress Association, Indian Society for Surface Science & Technology (ISSST),Kolkata, Indian Council of Chemists, Catalysis Society of India, Poorvanchal Academy of Sciences, and member of American Nano Society and IUPAC. He is associate editor for Advances in Chemical Engineering and Science and member of editorial board in number of journals. He has published 92 research articles in journals contributed as author/co-author.

Area of Interest:

Physical Science Engineering
100%
Nano-crystalline Solid Thin Films
62%
Oxidation Kinetics
90%
Micellar Catalysis
75%
Homogeneous Catalysis
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
106
Abstracts
0

Selected Publications

  1. Shahi, K., R.S. Singh, A.K. Singh, M. Aleksandrova and R. Khenata, 2018. CdTe quantum-dot-modified ZnO nanowire heterostructure. Applied Phys. A, Vol. 124, No. 3. 10.1007/s00339-018-1688-0.
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  2. Pataila, S., B. Jain, G.S. Thool and A.K. Singh, 2018. Nanosize water-soluble colloidal MnO2: An efficient oxidant for the ruthenium(III)-catalyzed degradation of metronidazole. Nanotechnol. Environ. Eng., Vol. 3. 10.1007/s41204-017-0030-y.
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  3. Jain, B., A.K. Singh, H. Kim, E. Lichtfouse and V.K. Sharma, 2018. Treatment of organic pollutants by homogeneous and heterogeneous Fenton reaction processes. Environ. Chem. Lett., 16: 947-967.
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  4. Chhetri, N., S.A. Bhoite and A.K. Singh, 2018. Micellar catalyzed hydrolysis of mono-2,3-dichloroaniline phosphate. J. Dispersion Sci. Technol., 39: 644-654.
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  5. Yadav, H., S.A. Bhoite and A.K. Singh, 2017. Kinetic and mechanistic study of micellar effect of hydrolytic reaction of Di-2-methoxy-4-nitroaniline phosphate. J. Dispersion Sci. Technol., 38: 121-131.
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  6. Verma, R., A. Asthana, A.K. Singh, S. Prasad and M.A.B.H. Susan, 2017. Novel glycine-functionalized magnetic nanoparticles entrapped calcium alginate beads for effective removal of lead. Microchem. J., 130: 168-178.
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  7. Verma, R., A. Asthana, A.K. Singh and S. Prasad, 2017. An arginine functionalized magnetic nano-sorbent for simultaneous removal of three metal ions from water samples. RSC Adv., 7: 51079-51089.
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  8. Shrivastava, A., A.K. Singh, N. Sachdev, D.R. Shrivastava and S. Prasad, 2017. Micellar oxidative transformation of ciprofloxacin: A kinetic investigation. Environ. Chem., 14: 231-242.
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  9. Shahi, K., R.S. Singh and A.K. Singh, 2017. Optical and structural properties of zinc oxide nanowires fabricated by hydrothermal method. Int. J. Res. Applied Sci. Eng. Technol., 5: 715-719.
    Direct Link  |  
  10. Sajwan, R.K., S. Tiwari, T. Harshit and A.K. Singh, 2017. Recent progress in multicolor tuning of rare earth-doped gadolinium aluminate phosphors GdAlO3. Opt. Quant. Electron., Vol. 49, No. 11. 10.1007/s11082-017-1158-5.
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  11. Sachdev, N., A.K. Singh, A. Shrivastava, Y. Katre and A.A.P. Khan, 2017. Mechanistic study of oxidation of D-arabinose by N-bromophthalimide in presence of micro-amount of chloro-complex of Ru(III) as a homogeneous catalyst. Arabian J. Chem., 10: 965-974.
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  12. Pataila, S., B. Jain, G.S. Thool, A.K. Singh and P.K. Sharma, 2017. Oxidative degradation of metronidazole by acidic potassium permanganate: A spectrophotometric kinetic study. J. Indian Chem. Soc., 94: 897-904.
  13. Jain, B., A.K. Singh and V.K. Sharma, 2017. Degradation of naphthylazo anionic dye by Fenton and Fenton-like processes: A comparative study with Fast Sulphon Black-F. Desalin. Water Treat., 62: 252-256.
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  14. Deo, S.R., A.K. Singh, L. Deshmukh and M. Aleksandrova, 2017. CdZnSSe thin film for photovoltaic device. Materialstoday: Proc., 4: 5537-5543.
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  15. Yadav, H., S.A. Bhoite and A.K. Singh, 2016. Effect of surfactants on hydrolysis of mono-N-ethyl-o-toluidine phosphate. Tenside Surfactants Deterg., 53: 182-194.
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  16. Singh, A.K., N. Sen, S.K. Chatterjee and N.P. Singh, 2016. Micelle catalyzed oxidative degradation of paracetamol by water soluble colloidal MnO2 in acidic medium. Tenside Surfactants Deterg., 53: 347-356.
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  17. Singh, A.K., N. Sen, S.K. Chatterjee and M.A.B.H. Susan, 2016. Kinetic study of oxidation of paracetamol by water-soluble colloidal MnO2 in the presence of an anionic surfactant. Colloid Polym. Sci., 294: 1611-1622.
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  18. Singh, A.K., N. Sen and S.K. Chatterjee, 2016. Oxidative degradation of norfloxacin by water soluble colloidal MnO2 in the presence of cationic surfactant. Indian J. Chem. A, 55: 1059-1067.
  19. Pandey, G.P., A.K. Singh, S. Prasad, L. Deshmukh, A. Asthana, S.B. Mathew and M. Yoshida, 2016. Kinetic determination of trace amount of mercury(II) in environmental samples. Microchem. J., 128: 55-61.
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  20. Deo, S.R., A.K. Singh, L. Deshmukh, N.P. Singh and M.P. Aleksandrova, 2016. Studies on structural, morphological and optical properties of chemically deposited CdS1-xSex thin films. J. Fluoresc., 26: 459-469.
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  21. Asthana, A., R. Verma, A.K. Singh, M.A.B.H. Susan and R. Adhikari, 2016. Silver nanoparticle entrapped calcium-alginate beads for Fe(II) removal via adsorption. Macromol. Symp., 366: 42-51.
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  22. Asthana, A., R. Verma, A.K. Singh and M.A.B.H. Susan, 2016. Glycine functionalized magnetic nanoparticle entrapped calcium alginate beads: A promising adsorbent for removal of Cu(II) ions. J. Environ. Chem. Eng., 4: 1985-1995.
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  23. Aleksandrova, M., V. Videkov, R. Ivanova, A.K. Singh and G.S. Thool, 2016. Highly flexible, conductive and transparent PEDOT:PSS/Au/PEDOT:PSS multilayer electrode for optoelectronic devices. Mater. Lett., 174: 204-208.
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  24. Akter, M., S.S. Satter, A.K. Singh, M.M. Rahman, M.Y.A. Mollah and M.A.B.H. Susan, 2016. Hydrophilic ionic liquid-assisted control of the size and morphology of ZnO nanoparticles prepared by a chemical precipitation method. RSC Adv., 6: 92040-92047.
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  25. Thool, G.S., M. Arunakumari, A.K. Singh and S.P. Singh, 2015. Shape tunable synthesis of Eu- and Sm-doped ZnO microstructures: A morphological evaluation. Bull. Mater. Sci., 38: 1519-1525.
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  26. Thool, G.S., K. Sraveen, A.K. Singh, U. Pal and S.P. Singh, 2015. Cowrie-shell architectures: low temperature growth of ni doped cds film. J. Alloys Comp., 649: 553-558.
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  27. Singh, A.K., S.R. Deo, L. Deshmukh, G.P. Pandey, R.S. Singh and A. Gupta, 2015. Growth and characterization of nanocrystalline CdSe thin solid films. Res. Chem. Int., 41: 535-548.
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  28. Singh, A.K., G.S. Thool, R.S. Singh and S.P. Singh, 2015. Cu-implanted ZnO nanorods array film: An aqueous synthetic approach. J. Alloys Comp., 618: 421-427.
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  29. Shrivastava, R., S.C. Shrivastava, R.S. Singh and A.K. Singh, 2015. Synthesis and characterization of cerium-doped CdZnS nanoparticles. Indian J. Phys., 89: 1153-1159.
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  30. Shrivastava, R., S.C. Shrivastava, R.S. Singh and A.K. Singh, 2015. Characterization of CdZnS thin film grown by using different capping agents. Mater. Res. Exp., Vol. 2, No. 3. 10.1088/2053-1591/2/3/036401.
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  31. Shrivastava, R and S.C. Shrivastava, 2015. Synthesis and Characterization of Sn doped CdZnS nanoparticles. Bulletin Mater. Sci., 38: 1277-1284.
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  32. Pandey, G.P., A.K. Singh, S. Prasad, L. Deshmukh and A. Asthana, 2015. Development of surfactant assisted kinetic method for trace determination of thallium in environmental samples. Microchem. J., 118: 150-157.
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  33. Pandey, G.P., A.K. Singh, L. Deshmukh and A. Asthana, 2015. Determination of dicofol in various environmental samples by spectrophotometric method using chromogenic reagent. Synth. React. Inorg. Metal-Organ. Nano-Metal Chem., 45: 1199-1205.
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  34. Mehra, S., A.K. Singh, G.S. Thool and V. Ganesan, 2015. Synthesis, morphological and optical properties of nano-crystalline solid cuxs thin films. Synth. React. Inorg. Metal-Org. Nano-Metal Chem., 46: 570-582.
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  35. Khan, A.A.P., A. Khan, A.M. Asiri and A.K. Singh, 2015. Homogenous catalysis of Ru (III) for the oxidation of thiamine by chloraminet in acidic medium. Int. J. Elect. Sci., 10: 759-774.
    Direct Link  |  
  36. Jain, B., A.K. Singh and R. Negi, 2015. Mechanistic study of [RuCl3 (H2O) 2OH]- catalyzed oxidation of l-leucine by acidic N-bromophthalimide. J. Iran. Chem. Soc., 12: 1717-1728.
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  37. Deo, S.R., A.K. Singh, L. Deshmukh, L.J. Paliwal and R.S. Singh, 2015. Studies on structural, morphological and optical behavior of chemically deposited Cd 0.5 Pb 0.5 S thin films. Optik Int. J. Light Elect. Opt., 126: 2311-2317.
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  38. Deo, S.R., A.K. Singh, L. Deshmukh and M.A.B.H. Susan, 2015. Metal chalcogenide nanocrystalline solid thin films. J. Elect. Mater., 44: 4098-4127.
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  39. Thool, G.S., A.K. Singh, R.S. Singh, A. Gupta and M.A.B.H. Susan, 2014. Facile synthesis of flat crystal ZnO thin films by solution growth method: A micro-structural investigation. J. Saudi Chem. Soc., 18: 712-721.
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  40. Singh, A.K., G.S. Thool, P.R. Bangal, S.S. Madhavendra and S.P. Singh, 2014. Low temperature Mn doped ZnO nanorod array: Synthesis and its photoluminescence behavior. Ind. Eng. Chem. Res., 53: 9383-9390.
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  41. Singh, A.K and S. Bano, 2014. Mechanistic aspects for the oxidation of brilliant green dye by chloramine-T in the presence of perchloric acid: a spectrophotometric kinetic approach. Res. Chem. Int., 40: 605-617.
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  42. Pandey, G.P., A.K. Singh, L. Deshmukh, S. Prasad, L.J. Paliwal, A. Asthana and S.B. Mathew, 2014. A novel and sensitive kinetic method for the determination of malathion using chromogenic reagent. Microchem. J., 113: 83-89.
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  43. Mehara, S. and A.K. Singh, 2014. Synthesis and optical properties of nanocrystalline copper selenide thin films. CSVTU J. Adv. Mater. Eng., 7: 86-91.
  44. Katre, Y.R., K. Tripathi and A.K. Singh, 2014. Kinetics of cetyltrimethylammonium bromide catalysed oxidation of cyclopentanone by n-bromophthalimide in acidic medium. Tenside Surf. Deterg., 51: 146-155.
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  45. Deo, S.R., A.K. Singh, L. Deshmukh, L.J. Paliwal, R.S. Singh and R. Adhikari, 2014. Structural, morphological and optical studies on chemically deposited nanocrystalline CdZnSe thin films. J. Saudi Chem. Soc., 18: 327-339.
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  46. Bairagi, B., S.A. Bhoite and A.K. Singh, 2014. Micellar effect on hydrolysis of 4-methyl-2-nitroaniline phosphate. Coll. J., 76: 765-773.
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  47. Singh, G., S.B. Shrivastava and V. Ganesan, 2013. Effect of Co doping on structural, morphological, electrical and optical properties of nanocrystalline zinc oxide films. J. Chem. Eng. Mater. Sci., 4: 1-6.
    Direct Link  |  
  48. Singh, A.K., K.S. Ashok, S. Vineeta, S. Ashish, 2013. Kinetics and mechanism of Aquachlororuthenium (III) catalyzed oxidation of tartaric acid by acid bromate. Open Catal. J., 6: 8-16.
    Direct Link  |  
  49. Singh, A., S. Mehra and G.S. Thool, 2013. Synthesis of copper sulphide (CuS) thin film by chemical bath deposition method and its characterization. Euro. Chem. Bull., 2: 518-523.
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  50. Shrivastava, R., R.S. Singh and A.K. Singh, 2013. Optical characterization of the (cd-zn) s: cdcl2 thin film deposited by cbd method. Int. J. Adv. Res. Technol., 2: 152-158.
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  51. Katrea, Y., N. Goyala, R. Sharmaa and A.K. Singhb, 2013. Influence of cetyltrimethylammonium bromide sodium dodecyl sulfate micelles on the oxidation of L-arginine by N-bromophthalimide in presence of Hclo4. Indian J. Chem., 52: 732-738.
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  52. Katre, Y., N. Goyal, R. Sharma and A.K. Singh, 2013. Oxidation behavior of L-threonine by N-bromophthalimide in micellar system of CTAB. J. Chilean Chem. Soc., 58: 1524-1529.
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  53. Katre, Y., N. Goyal and A.K. Singh, 2013. Impact of micelle media on the kinetics of oxidation of l-lysine (an essential amino acid) by n-bromophthalimide. J. Dispersion Sci. Technol., 34: 1421-1428.
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  54. Singh, A.K., N. Sachdeva, S. Alpa, J. Bhawna, Y.R. Katre, 2012. Oxidation of D-Glucose by NBP in the presence of chlorocomplex of Ir(III): A Kinetic and mechanistic study. Res. Chem. Int., 38: 507-521.
  55. Singh, A.K., G.S. Thool, S.R. Deo, R.S. Singh and A. Gupta, 2012. Synthesis and effect of post-deposition thermal annealing on morphological and optical properties of ZnO thin film. Res. Chem. Int., 38: 2041-2049.
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  56. Shrivastava, A., A.K. Singh, N. Sachdev, D.R. Shrivastava, Y. Katre, S.P. Singh and J.C. Mejuto, 2012. Micelle catalyzed oxidative degradation of norfloxacin by chloramine-T. J. Mol. Catal. A: Chem., 361: 1-11.
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  57. Shrivastava, A., A.K. Singh, N. Sachdev, D.R. Shrivastava and Y. Katre, 2012. Micellar effect on kinetic assessment of the oxidative degradation of norfloxacin by chloramine-t. J. Dispersion Sci. Technol., 33: 1752-1761.
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  58. Sachdev, N., A.K. Singh, A. Shrivastava and Y. Katre, 2012. Kinetic and mechanistic investigations of chlorocomplex of Ru (III) and Ir (III) catalyzed oxidation of d-fructose by N-bromophthalimide in acidic medium. J. Saudi Chem. Soc.. 10.1016/j.jscs.2012.12.006.
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  59. Katre, Y.R., K. Tripathi and A.K. Singh, 2012. Micelle catalyzed oxidation of 4-methyl-2-pentanone by nbp in the presence of acetic acid. J. Dispersion Sci. Technol., 33: 447-456.
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  60. Katre, Y., S.R. Mudliar, G.K. Joshi and A.K. Singh, 2012. Catalytic effect of cetyltrimethylammonium bromide on the oxidation of oxalic acid by n-bromophthalimide in acidic medium. J. Dispersion Sci. Technol., 33: 1038-1045.
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  61. Katre, Y., S. Nayak, D.N. Sharma and A.K. Singh, 2012. Kinetic study of oxidation of galactose by N-bromo phthalimide in the presence of cationic micelle in acidic medium. Res. Chem. Int., 38: 179-193.
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  62. Katre, Y., R. Sharma, G.K. Joshi and A.K. Singh, 2012. Influence of cationic micelle on the oxidation of acetaldehyde by n-bromophthalimide. J. Dispersion Sci. Technol., 33: 863-870.
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  63. Katre, Y., M. Singh and A.K. Singh, 2012. Kinetics and mechanism of oxidation reaction of lactose by N-bromophthalimide: Micelles used as a catalyst. Coll. J., 74: 391-400.
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  64. Singh, R.S., S. Bhushan, K.S. Ajaya and S.R. Deo, 2011. Characterization and optical studies of CdSe Nanocrystalline thin films. Digest J. Nanomat. Biostruct., 6: 433-442.
  65. Singh, A.K., S.R. Deo, G.S. Thool, R.S. Singh, Y.R. Katre and A. Gupta, 2011. Synthesis and characterization of chemically deposited nanocrystalline CdSe thin film. Synth. React. Inorg. Metal-Org. Nano-Metal Chem., 41: 1346-1350.
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  66. Singh, A.K., R. Negi, B. Jain, Y. Katre, S.P. Singh and V.K. Sharma, 2011. Pd (II) catalyzed oxidative degradation of paracetamol by chloramine-T in acidic and alkaline media. Ind. Eng. Chem. Res., 50: 8407-8419.
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  67. Katre, Y.R., K. Tripathi, G.K. Joshi and A.K. Singh, 2011. Micellar effect on kinetics of oxidation of acetophenone by n-bromophthalimide in aqueous acetic acid medium. J. Dispersion Sci. Technol., 32: 341-351.
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  68. Katre, Y.R., G.K. Joshi and A.K. Singh, 2011. Effect of anionic surfactant on the oxidation of dl-aspartic acid by n-bromophthalimide: a kinetic study. J. Dispersion Sci. Technol., 32: 1434-1444.
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  69. Katre, Y., S. Minu, K.S. Ajaya, 2011. Influence of etyltrimethylammonium bromide/sodium dodecylsulfate micelles on the oxidation of D-fructose by N- bromophthalimide in presence of sulfuric acid:a kinetic study. Oxid. Commun., 34: 273-291.
  70. Katre, Y., N. Goyal and A.K. Singh, 2011. Effect of ctab micelle on the oxidation of l-leucine by n-bromophthalimide: a kinetic study. Z. Phys. Chem., 225: 107-124.
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  71. Katre, Y., M. Singh and A.K. Singh, 2011. Kinetics and mechanism of cetyltrimethylammonium bromide catalyzed n-bromosuccinimide oxidation of d-mannose in acidic medium. J. Dispersion Sc. Technol., 32: 903-912.
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  72. Katre, Y., M. Singh and A.K. Singh, 2011. An efficient and mild procedure for the preparation of aldonic acids via oxidation of d-sucrose by employing n-bromophthalimide oxidant and micellar system. Tenside Surfactants Deterg., 48: 73-81.
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  73. Singh, R.S., S. Bhushan and A.K. Singh, 2010. Studies on Nano-crystalline properties of chemically deposited cdse films. Chalcogenide Lett., 7: 375-381.
  74. Singh, R.S., S. Bhushan and A.K. Singh, 2010. Characterization and optical studies of Sm\(^{3+}\) and Dy\(^{3+}\) doped chemically deposited CdS-Se films. J. Ovon. Res., J. Ovon. Res.,: 211-219.
    Direct Link  |  
  75. Singh, A.K., N. Sachdev, A. Shrivastava, Y. Katre and S.P. Singh, 2010. A novel and facile oxidation of d-glucose by n-bromophthalimide in the presence of chloro-complex of ruthenium (III). Synth. Synth. React. Inorg. Met.-Org. Chem., 40: 947-954.
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  76. Singh, A.K., B. Jain, R. Negi, Y. Katre, S.P. Singh and V.K. Sharma, 2010. Kinetic study of the ruthenium (III)-catalyzed oxidation of glycine by N-bromophthalimide in acidic medium. Transition Met. Chem., 35: 407-414.
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  77. Singh, A.K., B. Jain, R. Negi, Y. Katre, S.P. Singh and V.K. Sharma, 2010. Kinetic study of oxidation of valine by N-bromophthalimide in presence of iridium (III) chloride as homogenous catalyst. Synth. React. Inorg. Met.-Org. Chem., 40: 71-77.
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  78. Katre, Y., M. Singh and A.K. Singh, 2010. Effect of micellar aggregates on the kinetics of dextrose oxidation by n-bromosuccinimide. Tenside Surfactants Deterg., 47: 98-105.
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  79. Singh, S.P., A.K. Singh and A.K. Singh, 2009. Kinetics of Ir (III)-catalyzed oxidation of d-glucose by potassium iodate in aqueous alkaline medium. J. Carbohydr. Chem., 28: 278-292.
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  80. Singh, A.K., R. Negi, Y. Katre and S.P. Singh, 2009. Mechanistic study of novel oxidation of paracetamol by chloramine-T using micro-amount of chloro-complex of Ir (III) as a homogeneous catalyst in acidic medium. J. Mol. Catal. A: Chem., 302: 36-42.
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  81. Singh, A.K., R. Negi, B. Jain, Y. Katre, S.P. Singh and V.K. Sharma, 2009. Kinetics and mechanism of ru (iii)-catalyzed oxidation of paracetamol by chloramine-t in aqueous acidic medium. Catal. Lett., 132: 285-291.
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  82. Singh, A.K., J. Bhawana, Y.R. Katre, 2009. Kinetics and mechanism of oxidation of glycine by N-bromophthalimide in the presence of chlorocomplex of Ir(III) as homogeneous catalyst. Oxid. Commun., .
  83. Singh, A.K., B. Jain, R. Negi, Y. Katre, S.P. Singh and V.K. Sharma, 2009. Kinetics and mechanism of oxidation of β-Alanine by N-bromophthalimide in the presence of Ru (III) chloride as homogenous catalyst in acidic medium. Transition Met. Chem., 34: 521-528.
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  84. Singh, A.K., B. Jain, R. Negi, Y. Katre, S.P. Singh and V.K. Sharma, 2009. A novel oxidation of valine by N-bromophthalimide in the presence of Ruthenium (III) chloride as a homogeneous catalyst. Catal. Lett., 131: 98-104.
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  85. Singh, A.K., B. Jain, R. Negi, Y. Katre and S.P. Singh, 2009. Oxidation of Valine by N-bromophthalimide in presence of chloro-complex of pd (ii) as homogenous catalyst: a kinetic and mechanistic study. Open Catal. J., 2: 12-20.
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  86. Katre, Y.R., S. Patil and A.K. Singh, 2009. Effect of cationic micelle on the kinetics of oxidation of citric acid by n-bromophthalimide in acidic medium. J. Dispersion Sci. Technol., 30: 159-165.
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  87. Katre, Y.R., M. Singh, S. Patil and K.S. Ajaya, 2009. Micelle-assisted N-bromophthalimide oxidation of fructose in the presence of sulfuric acid. Acta Phys. Chim. Sin., 25: 319-326.
  88. Katre, Y.R., K. Tripathi, G.K. Joshi and A.K. Singh, 2009. Kinetic and mechanistic study of the influence of micelles on the oxidation of acetone by n-bromophthalimide in aqueous acetic acid medium. Transition Met. Chem., 46: 218-227.
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  89. Katre, Y.R., K. Sahu, S. Patil and A.K. Singh, 2009. Effect of ionic micelle on the oxidation of diethylene glycol by n-bromophthalimide. J. Dispersion Sci. Technol., 30: 481-487.
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  90. Katre, Y.R., G.K. Joshi and A.K. Singh, 2009. Kinetics and mechanism of oxidation of L-Alanine by N-bromophthalimide in the presence of sodium dodecyl sulfate. Kinet. Catal., 50: 367-376.
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  91. Katre, Y.R., G.K. Joshi and A.K. Singh, 2009. Kinetic study of oxidation of dl-serine by n-bromophthalimide in the presence of sodium dodecyl sulfate. J. Dispersion Sci. Technol., 31: 108-116.
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  92. Singh, S.P., A.K. Singh and A.K. Singh, 2008. First and novel oxidation of d-fructose by potassium iodate using [IrCl 3 (H 2 O) 2 OH]− complex as a homogeneous catalyst in alkaline medium. J. Mol. Catal. A: Chem., 293: 97-102.
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  93. Patil, S., K. Yokraj and K.S. Ajaya, 2008. Oxidation of lactic acid by N-bromophthalimide in micelle of cetyl trimethylammonium bromide: A kinetic study. Oxid. Commun., 31: 176-187.
  94. Katre, Y.R., G.K. Joshi and A.K. Singh, 2008. Effect of cetyltrimethylammonium bromide on the oxidation of β-alanine by n-bromophthalimide in acidic medium. Tenside Surfactants Deterg., 45: 213-221.
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  95. Katre, Y., M. Singh, S. Patil and A.K. Singh, 2008. Effect of cationic micellar aggregates on the kinetics of dextrose oxidation by n-bromophthalimide. J. Dispersion Sci. Technol., 29: 1412-1420.
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  96. Singh, S.P., A.K. Singh and B. Singh, 2007. Mechanistic study of palladium (II) catalysed oxidation of crotonic acid by periodate in aqueous perchloric acid medium. J. Mol. Catal. A: Chem., 266: 226-232.
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  97. Patil, S., Y.R. Katre and A.K. Singh, 2007. Micellar effect on the kinetics of oxidation of malic acid by N-bromophthalimide. Colloids Surf. A: Physicochem. Eng. Aspects, 308: 6-13.
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  98. Patil, S., Y.R. Katre and A.K. Singh, 2007. A kinetic and mechanistic study on the oxidation of hydroxy acids by N-bromophthalimide in the presence of a micellar system. J. Surfactants Deterg., 10: 175-184.
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  99. Katre, Y.R., A.K. Singh, S. Patil and G.K. Joshi, 2006. Kinetic studies on the mechanism of oxidation of DL-serine by chloramine-T in micellar system. Oxid. Commun., 29: 129-136.
  100. Katre, Y.R., A.K. Singh, G.K. Joshi and S. Patil, 2006. Oxidation of DL-valine and DL-alanine by sodium N-chloro-4-methyl benzene sulphonamide in micellar medium. A relative kinetic study. Oxid. Commun., 29: 137-146.
  101. Joshi, G.K., Y.R. Katre and A.K. Singh, 2006. Kinetics of glycine oxidation by N-bromophthalimide in the presence of sodium dodecyl sulfate. J. surfactants Deterg., 9: 231-235.
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  102. Singh, A.K., N. Chaurasia, S. Rahmani, J. Srivastava and A.K. Singh, 2005. Ruthenate ion catalysed oxidation of D-galactose and D-xylose by alkaline solution of sodium metaperiodate: a kinetic study. J. Chem. Res., 2005: 304-310.
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  103. Ashish, S.P. Singh and A.K. Singh, 2005. Kinetics and mechanism of oxidation of maltose by aqueous alkaline solution of periodate. Oxid. Commun., 28: 630-635.
  104. Singh, A.K., A.K. Singh and B. Singh, 2004. Kinetics of oxidation of crotonic acid by sodium N-chloro-p-toluenesulphonamide in the presence of Pd (II) and Os (VIII) as homogeneous catalysts. Indian J. Chem. Sect. A: Inorg. Phys. Theor. Anal., 43: 1645-1653.
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  105. Singh, A.K., V. Singh, S. Rahmani, A.K. Singh and B. Singh, 2003. Mechanism of Pd (II) and Hg (II) co-catalyzed oxidation of D-mannose and maltose by acidic solution of N-bromoacetamide. J. Mol. Catal. A: Chem., 197: 91-100.
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  106. Singh, A.K., V. Singh, A.K. Singh, N. Gupta and B. Singh, 2002. Kinetics and mechanism of Ru (III) and Hg (II) co-catalyzed oxidation of D-galactose and D-ribose by N-bromoacetamide in perchloric acid. Carbohydr. Res., 337: 345-351.
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