[1] | Ion-exchangers in radioactive waste management Part XIV: Removal behavior of hydrous titanium oxide and sodium titanate for Cs (I): J. Radioanal. Nucl. Chem. 261(2), (2004), 457-463. |
[2] | Removal of mercury ions from aqueous solutions by composite of polyaniline with polystyrene: Separation and Purification Technology, 38, (2004), 225-232. |
[3] | Toxic waste removal from aqueous solutions by polyaniline: A Radiotracer Study: Adsorption Science and Technology, 22(6), (2004), 485-496. Inorganic particulates in removal of heavy metal toxic ions IX: Rapid and efficient removal of Hg (II) by hydrous manganese and tin oxides: J. Colloid and Interface Science, 279, (2004), 61-67. |
[4] | Removal behavior of Babool bark (Acacia Nilotica) for submicro concentrations of Hg2+ from aqueous solutions: A Radiotracer study: Separation and Purification Technology, 41, (2005), 20-28. |
[5] | Removal of Cesium Ions from Aqueous Solution by Polyaniline: A Radiotracer Study: Journal of Polymer Research 12, 1, (2005), 31-35. |
[6] | Equilibrium studies for Cs (I) adsorption on Hydrous Ferrous Oxide: Advances in Applied Research 2, 1, (2010), 20-28. |
[7] | Effect of Nonionic Surfactant (Triton X–100) on the Spectrophotometric |
[8] | Determination of Lead (II) With Potassium Benzyl Xenthate: Asian Journal of Chemistry 22, 10, (2010), 7567-7572. |
[9] | Equilibrium Studies for Hg(II) Adsorption from Aqueous Solutions by Hydrous Ferric Oxide and Tungsten Oxide: Asian Journal of Research in Chemistry 3, 3, (2010), 591-595. |
[10] | New Extractive and Spectrophotometric Determination of Mercury(II) by using isonitriso p-isopropyl Actophenone Phenyl Hydrazone: Acta Ciencia Indica 36C, 3, (2010), 235-240. |
[11] | Determination of Iron (III) in Food and Pharmaceutical Sample by New Extractive-Spectrophotometric Method with Potassium Isobutyl Xanthate: Indian Council of Chemist 27, 2 (2010), 227-231. |
[12] | Removal of Cerium ions from Aqueous Solution by Hydrous Ferric Oxide-A Radiotracer Study: Journal of Hazardous Materials 186, 2-3, (2011), 1028-1032. |
[13] | O-Anisidine as Indicator in Titrimetric Determination of Ascorbic Acid and Isonicotinic Acid Hydrazide in Pharmaceutical Formulations: Indian Journal of Applied Biology and Pharmaceutical Technology 1, 2 (2010), 221-230. |
[14] | Efficient Removal of Ce (III) and Eu (III) Ions from Aqueous Solutions by Local Clay-A Radiotracer Study: E Journal of Chemistry 8, 1 (2011), 917-923. |
[15] | Titrimetric Determination of Ascorbic Acid and Isonicitonic Acid Hydrazide in Drug Formulations with Chloramine-T as Oxidant: International Journal of Pharmacy and Technology 2, 4, (2010), 878-891. |
[16] | Kinetic-Spectrophotometric Determination of Trace Amounts of Vanadium (V) Based on its Catalytic Effect on the Reaction of O-Anisidine and Potassium Bromate: Asian Journal of Chemistry 23, (2011). |
[17] | Nano fabricated Drug Delivery Devices: International Journal of Pharmacy and Technology 2, 4, (2010), 565-573. |
[18] | Determination of Chromium (VI) in Goa Beans and Soya Leaves Sample by New Extractive-Spectrophotometric Method with Isonitriso p-isopropyl Acetophenone Phenyl Hydrazone: Asian Journal of Research in Chemistry 4, 2 (2011), 313-315. |
[19] | Kinetic-Spectrophotometric Determination of Trace Amounts of Iron (II) Based on its Catalytic Effects on the Reaction of O-Anisidine and Potassium Bromate: Journal of Chemistry and Pharmaceutical Research 2, 6, (2010), 359-368. |
[20] | Kinetic-Spectrophotometric Determination of Trace Amounts of Cupper (II) Based on its Catalytic Effects on the Reaction of O-Anisidine and Potassium Bromate: International Journal of Pharma World Research 2, 1, (2011), 01-21. |
[21] | Effect of Nonionic Surfactant Micellar (Triton X–100) on the Spectrophotometric Determination of Lead (II) with Isonitriso p-isopropyl Acetophenone Phenyl Hydrazone: Journal of Chemistry and Pharmaceutical Research 3, 1, (2011), 508-514. |