Physical Chemistry

Physical chemistry is the study of macroscopic, atomic, subatomic, and particulate phenomena in chemical systems in terms of physical laws and concepts.


Pravin Singare

Editorial Board Member of Physical Chemistry

Assistant Professor, Bhavan's College, Andheri, Mumbai, India

Research Areas

Ion exchange Techniques, Polymer Degradation Studies, Environmental Pollution Studies, Nuclear & Radiotracer Applications

Education

1999Ph.D.Chemistry from University of Mumbai
1997M.Sc.Inorganic Chemistry By Research from Universityof Mumbai
1996Post Graduate DiplomaIndustrial and Environmental Chemistry, B.N.Bandodkar College of Science, Thane, India
1994B.Sc. Chemistry from University of Mumbai

Experience

presentAssistant Professor, Bahvan’s College, Andheri, Mumbai, India

Membership

Life Member-Indian Society of Analytical Scientists (ISAS), C/o.Analytical Chemistry Division, B.A.R.C., Mumbai, India
Life Member-National Association for Application of Radio Isotopes and Radiation in Industry (NAARI), C/o.Isotope Division, B.A.R.C., Mumbai, India
Life Member-Indian Nuclear Society, B.A.R.C., Mumbai, India
Life Member-Indian Council of Chemists, Agra, India

Publications: Journals

[1]  Study Of Some Major Non-Biodegradable Solid Wastes Along Thane Creek Of Mumbai, World Environment (In Press)
[2]  Study On Accumulation Of Non-Biodegradable Solid Wastes Along Ulhas River Of Thane, Mumbai, Interdisciplinary Environmental Review (In Press)
[3]  Thermal Degradation Studies Of Some Strongly Acidic Cation Exchange Resins, Open Journal of Physical Chemistry, 01(02), 45-54 (2011)
[4]  Distribution Behaviour of Trace and Toxic Metals in Soil and Sediment along the Thane Creek Near Mumbai, India, Interdisciplinary Environmental Review 12(4), 298-312 (2011).
[5]  Analysis of the Heavy metal Pollutants in Sediment Samples collected from Thane Creek of Maharashtra, India , International Journal of Sustainable Society(IN PRESS)
[6]  Study of water pollution due to Heavy metals in Kukshet lakes of Nerul, Navi Mumbai, India, International Journal of Global Environmental Issues, 11(1), 79-90 (2011)
[7]  Water pollution by discharge effluents from Gove Industrial Area of Maharashtra, India: Dispersion of heavy metals and their Toxic effects International Journal of Global Environmental Issues, 11(1), 28-36 (2011)
[8]  Impact Assessment of Pollution in some Lake water Located at and around Thane City of Maharashtra, India: Physico chemical properties and Toxic effects of Heavy metal content,Interdisciplinary Environmental Review, 12 (3), 215-230 (2011).
[9]  Physico-Chemical Analysis of the Sediment Samples collected from Thane Creek of Maharashtra, India, Interdisciplinary Environmental Review, 12(02), 95-107 (2011)
[10]  Study of Some Nuclear Grade Resins by Application of Tracer Technique Nuclear and Radiochemistry Symposium (NUCAR), by Board of Research in Nuclear Sciences Department of Atomic Energy in association with GITAM Institute of Science, Gandhinagar Campus, Rushikonda Visakhapatnam, Andhra Pradesh, India, February, 2011
[11]  Thermodynamic Study of Ion Exchange Reaction to Predict Ionic Selectivity Using Ion Exchange Resin Indion-850, Russ.J. Gen.Chem. 80 (10), 2054-2058,(2010)
[12]  Water pollution study of the Shirvane and Nerul lakes situated at Nerul, Navi Mumbai, India, Interdisciplinary Environmental Review, 12(01), 1-11 (2011).
[13]  Study of Physico-chemical quality of the Industrial Waste Water Effluent from Gove Industrial Area of Bhiwandi City of Maharashtra, India Interdisciplinary Environmental Review, 11(4), 263-273 (2010).
[14]  Analysis of Essential Trace Elements in some Traditional Indian medicinal plants using instrumental neutron activation analysis and Atomic Absorption Spectroscopy Techniques International Journal of Immunological Studies,1(3), 285-296 (2011)
[15]  Study on Mineral content of Some Ayurvedic Indian Medicinal Plants by Instrumental Neutron Activation Analysis and AAS Techniques Health Science Journal, 4(3), 150-161, (2010).
[16]  A Case Study of Some Lakes Located at and Around Thane City of Maharashtra, India, with Special Reference to Physico-Chemical Properties and Heavy Metal content of Lake Water Interdisciplinary Environmental Review, 11(01), 90-107, (2010).
[17]  Soil Pollution along Kalwa Bridge at Thane Creek of Maharashtra, India Journal of Environmental Protection 1, 121-128 (2010)
[18]  Study on Distribution coefficient of Bromide ions from Aqueous Solution on Ion Exchange Resins Indion-850, Indion-860 and Indion FF-IP European Journal Of Chemistry 1(1), 47-49 (2010).
[19]  Thermal Degradation Studies of Polystyrene Sulfonic and Polyacrylic Carboxylic Cationites, Rus. J. Gen. Chem., 80(03), 527-532 (2010)
[20]  Selectivity Study of Strongly Acidic Cation Exchange Resin Amberlite IR-120 Colloid Journal 72(04), 538-543, (2010).
[21]  Study on Physico-Chemical properties and Heavy Metal Content of the Soil Samples from Thane Creek of Maharashtra, India Interdisciplinary Environmental Review, 11(01), 38-56, (2010).
[22]  Study on Distribution Coefficient of Bromide ions from Aqueous Solution on Ion Exchange Resins Duolite A-161 and Duolite A-162 Colloid Journal, 72(06), 874-876, (2010)
[23]  Availability of Essential Trace Elements in Ayurvedic Indian Medicinal Herbs using Instrumental Neutron Activation Analysis and Atomic Absorption Spectroscopy World Journal of Science, Technology and Sustainable Development, 7(2), 175-190 (2010).
[24]  INAA and AAS Study of Essential Trace Elements in Ayurvedic Indian Medicinal Plants, Int. J. Immunological Studies, 1(2), 150-162 (2010).
[25]  Application of INAA and AAS Techniques for Analysis Of Essential Trace Elements in Some Indian medicinal plants Int.J.Behavioural and Healthcare Research 1(4),388-399 (2009)
[26]  Determination of macro, micro nutrient and trace element concentrations in Indian medicinal plants using instrumental neutron activation analysis and Atomic Absorption Spectroscopy Techniques Int. J. Food Safety, Nutrition and Public Health, 3(1),33-44 (2010).
[27]  Analysis of trace elements in some Medicinal Plants By NAA and AAS Techniques, Radiochemistry, 52(3), 310-314 (2010).
[28]  Behaviour of Radioactive Iodide and Bromide ions from Aqueous Solution on Ion Exchange Resins Amberlite IRA-400 Natural Science ,1(3), 191-194 (2009)
[29]  Study of Some Indian Medicinal Plants by Application of INAA and AAS Techniques, Natural Science 2(1), 26-32 (2010)
[30]  Studies of Uni-Univalent ion exchange reactions using strongly acidic cation exchange resin Amberlite IR-120, Natural Science,1(2), 124-128 (2009)
[31]  Application of Radioactive Tracer Technique for Characterization of Strongly Basic Anion Exchange Resins Duolite A 101D and Duolite A 102D Radiochemistry, 52(1), 81-86, (2010)
[32]  Analysis of Mineral Content of some Medicinal Plants by NAA and AAS Techniques, Radiochemistry, 51(3), 321-325, (2009)
[33]  Study on ion exchange equilibrium for some uni-univalent and uni-divalent reaction systems using strongly basic anion exchange resin Duolite A-113 Russ. J.Physical Chemistry 83(13), 2313-2317, (2009)
[34]  Study on Distribution coefficient of Bromide ions from Aqueous Solution on Ion Exchange Resins Duolite A101D and Duolite A102D Int. J. Nuclear Desalination, 3(4), 383-389, (2009).
[35]  Study on Distribution coefficient of Iodide ions from Aqueous Solution on Some Strongly Basic Anion Exchange Resins Int. J. Nuclear Desalination, 3(4), 375-382, (2009).
[36]  Study of Some Ayurvedic Indian Medicinal Plants for the Essential Trace Elemental contents by Instrumental Neutron Activation Analysis and Atomic Absorption Spectroscopy Techniques Radiochim. Acta, 97(6), 325-331, (2009).
[37]  Behaviour of Radioactive Iodine and Bromine from Aqueous Solution on Ion Exchange Resins Duolite A-113 Int. J. Nuclear Desalination, 3(4), 369-374, (2009).
[38]  Application of 82Br as a Radioactive Tracer Isotope to Study the Bromide Ion-Isotopic Exchange Reaction in Strongly Basic Anion Exchange Resin Duolite-A161 Russ. J.Physical Chemistry, 83(8),1389-1394, (2009)
[39]  Study of Bromide Ion-Isotopic Exchange Reaction Kinetics Using a weakly Basic Macro porous Resin Indion-860 Radiochemistry, 50(06),633-637,(2008)
[40]  Application of Radioactive Tracer Technique to Study the Kinetics of Iodide Ion-Isotopic Exchange Reaction using Strongly Basic Anion Exchange Resin Duolite A-116 Radiochemistry, 50(06),642-644, (2008)
[41]  Application of Radioactive Tracer Technique to Study the Kinetics and Mechanism of Reversible Ion-Isotopic Exchange Reaction using Strongly Basic Anion Exchange Resin Indion-850 Radiochemistry, 50(06),638-641, (2008)
[42]  Thermodynamics of Ion Exchange Equilibrium For Some Uni-univalent and Divalent Reaction Systems Using Strongly Basic Anion Exchange Resin Indion FF-IP Bull. Chem. Soc. Ethiop., 22(3), 415-421, (2008).
[43]  The Application of the Radioactive Tracer Technique to Study the Kinetics of Bromide Isotope Exchange Reaction with the Participation of Strongly Basic Anion Exchange Resin Indion FF-IP Russ. J. Physical Chemistry A, 82(9),1589-1595,(2008)
[44]  Ion Exchange Equilibrium For Some Uni-Univalent and Uni-Divalent Reaction Systems Using Strongly Basic Anion Exchange Resin Duolite A-102 D Bull. Chem. Soc. Ethiop., 22(1), 107-114,(2008)
[45]  Application of Radioactive Tracer Technique for Characterization of some Strongly Basic Anion Exchange Resins Radiochim. Acta, 96(02), 99-104,(2008)
[46]  Comparative Study on Iodide and Bromide Ion-Isotopic Exchange Reactions by Application of Radioactive Tracer Technique J.Porous Mater, 15(03),253-258, (2008)
[47]  Application of Radioactive Tracer Technique on Industrial Grade Ion Exchange Resins Indion-830 (Type-1) and Indion-N-IP (Type-2) Radiochim. Acta, 95(01), 111-114,(2007)
[48]  Comparative Study on Ion-Isotopic Exchange Reaction Kinetics by Application of Tracer Technique Radiochim. Acta, 95(03), 173-176,(2007)
[49]  Study on Kinetics and Mechanism of Ion-Isotopic Exchange Reaction Using Strongly Basic Anion Exchange Resins Duolite A-101 D and Duolite A-102 D Radiochim. Acta, 95(10), 595-600,(2007)
[50]  Application of Radiotracer Technique to Study the Ion Isotope Exchange Reactions Using a Strongly Basic Anion-Exchange Resin Duolite A-113 Radiochemistry, 49(05),519-522, (2007)
[51]  A Study of Ion Exchange Equilibrium for Some Uni-Univalent and Uni-Divalent Reaction Systems Using Strongly Basic Anion Exchange Resin Indion-830 (Type 1) Russ. J. Physical Chemistry A, 81(12),2059-2063,(2007)
[52]  The Kinetics and Mechanism of Bromide Ion Isotope Exchange Reaction in Strongly Basic Anion-Exchange Resin Duolite A-162 Determined by the Radioactive Tracer Technique Russ. J. Physical Chemistry A, 81(11), 1768-1773, (2007)
[53]  Comparative Study on Bromide and Iodide Ion-Isotopic Exchange Reactions Using Strongly Basic Anion Exchange Resin Duolite A-113 J.Nuclear and Radiochemical Sciences, 7(02),29-32, (2006)
[54]  Studies of Some Uni-Bivalent Ion Exchange Reaction Systems Using Strongly Basic Anion Exchange Resin Indion-102 Oriental Journal Of Chemistry, 25(4), 879-883 (2009)
[55]  Studies of Some Uni-Univalent Ion Exchange Reaction Systems Using Strongly Basic Anion Exchange Resin Indion-102 Oriental Journal Of Chemistry, 25(3), 755-758 (2009)
[56]  Ion Exchange Equilibrium Study Using Strongly Basic Anion Exchange Resin Indion-102 Oriental Journal Of Chemistry,25(3), 587-592 (2009)
[57]  Study of H+/Mg2+ and H +/Ca2+ ion exchange reaction systems using strongly acidic cation exchange resin Amberlite IR-120 Oriental Journal Of Chemistry, 25(3), 687-693 (2009)
[58]  Study of Uni-Bivalent Ion Exchange Reactions Using Strongly Acidic Cation Exchange Resin Tulsion T-46, RASĀYAN J.Chem, 02(02), 507-511,(2009)
[59]  Selectivity Behaviour of Strongly Acidic Cation Exchange Resins Tulsion T-46 for Univalent ions, RASĀYAN J.Chem, 02(04), 941-945 (2009)
[60]  Thermodynamics of Uni-Univalent Ion Exchange Reactions Using Strongly Acidic Cation Exchange Resin Tulsion T-46 RASĀYAN J.Chem, 02(03), 645-648,(2009)
[61]  Study of Uni-Bivalent Ion Exchange Reactions Using Strongly Acidic Cation Exchange Resin Duoilte ARC 9353 RASĀYAN J.Chem. 02(01), 75-80 (2009)
[62]  Ion Exchange Equilibrium Study Using Strongly Acidic Cation Exchange Resins Duoilte ARC 9353 RASĀYAN Journal of Chemistry, 02(02),315-321, (2009)
[63]  Studies of Uni-Univalent Ion Exchange Reactions Using Strongly Acidic Cation Exchange Resin Duoilte ARC 9353 RASĀYAN Journal of Chemistry, 02(03), 617-621,(2009)
[64]  Studies of Some Uni-Univalent Ion Exchange Reaction Systems Using Strongly Basic Anion Exchange Resin Tulsion A-33 RASĀYAN J.Chem., 02(01), 96-100, (2009)
[65]  Studies of Some Uni-Bivalent Ion Exchange Reaction Systems Using Strongly Basic Anion Exchange Resin Tulsion A-33 RASĀYAN Journal of Chemistry, 02(02), 491-496, (2009)
[66]  Ion Exchange Equilibrium Study Using Strongly Basic Anion Exchange Resin Tulsion A-33 RASĀYAN Journal of Chemistry, 02(04), 807-812, (2009)
[67]  Study of Uni-Bivalent Ion Exchange Reactions Using Strongly Acidic Cation Exchange Resin Duolite ARC 9351 RASĀYAN J.Chem., 02 (01), 114-119, (2009)
[68]  Ion Exchange Equilibrium Studies Using Strongly Acidic Cation Exchange Resins Duolite ARC 9351 RASĀYAN Journal of Chemistry, 02(03), 566-571, (2009)
[69]  Studies of Uni-Univalent Ion Exchange Reactions Using Strongly Acidic Cation Exchange Resin Duolite ARC 9351 RASĀYAN Journal of Chemistry,02(04), 861-864, (2009)
[70]  Studies of Some Uni-Univalent Ion Exchange Reaction Systems Using Strongly Basic Anion Exchange Resin Duolite 101-D RASĀYAN Journal of Chemistry, 02(02),280-284, (2009)
[71]  Studies of Some Uni-Bivalent Ion Exchange Reaction Systems Using Strongly Basic Anion Exchange Resin Duolite-101D RASĀYAN Journal of Chemistry, 02(03), 593-597, (2009)
[72]  Ion Exchange Equilibrium Study Using Strongly Basic Anion Exchange Resin Duolite-101D RASĀYAN Journal of Chemistry, 02(04), 901-906, (2009)
[73]  Study of Uni-bivalent ion exchange reactions using strongly acidic cation exchange resin Indion-225, Int. J. Chem. Sci., 7(2), 797-804, (2009)
[74]  Ion Exchange Equilibrium Study Using Strongly Acidic Cation Exchange Resins Indion-225, Int. J.Chem. Sci., 7(2), 722-730, (2009)
[75]  Studies of Uni-Univalent ion exchange reactions using strongly acidic cation exchange resin Indion-225 Int. J. Chem. Sci., 7(2), 2009, 1472-1478,(2009)
[76]  Behaviour of Radioactive Iodide And Bromide From Aqueous Solution on Ion Exchange Resins Duolite A-113 Proceedings of Nuclear and Radiochemistry Symposium (NUCAR), by Board of Research in Nuclear Sciences, Department of Atomic Energy, Department of Chemistry, Mithibai College, Mumbai, India, January, (2009)
[77]  Studies on Ion Exchange Equilibrium Using some Anion exchange resins Int. J. Chem. Sci., 6(4), 2172-2181, (2008)
[78]  Study on Ion Exchange Equilibrium Using Strongly Basic Anion Exchange Resin Duolite A-162, J.Ind.Council Chem., 25(02),117-121,(2008)
[79]  Study on Ion Exchange Equilibrium for Some Uni-Univalent Reaction Systems Using Strongly Basic Anion Exchange Resin Amberlite IRA-400 J.Ind.Council Chem., 24(02), 73-77,(2007)
[80]  Characterization of industrial grade ion exchange resin by application of radioactive tracer technique Proceedings of Nuclear and Radiochemistry Symposium (NUCAR), by Board of Research in Nuclear Sciences, Department of Atomic Energy, The Maharaja Sayajirao University of Baroda, India, February (2007)
[81]  Study on kinetics of self diffusion reaction by application of 82Br as a Radioactive tracer isotope, Asian J.Chem. 17,125 (2005)
[82]  Study of ion-isotopic self diffusion reactions as a function of ionic Concentration and temperature, Asian J.Chem. 17, 673 (2005)
[83]  Radio isotopic tracer technique for characterization of Duolite A-116, Indion-830 (Type-1), and Indion N-IP (Type-2) strongly basic anion exchange resins Proceedings of Nuclear and Radiochemistry Symposium (NUCAR), by Board of Research in Nuclear Sciences, Department of Atomic Energy, Guru Nanak Dev University, Amritsar, India, March (2005)
[84]  Application of Non destructive technique to study ion-isotopic self diffusion reaction kinetics in Indion FF-IP and Duolite A-162 ion exchange resins Proceedings of Nuclear and Radiochemistry Symposium (NUCAR), by Board of Research in Nuclear Sciences, Department of Atomic Energy, Guru Nanak Dev University, Amritsar, India, March (2005)
[85]  Study of reversible ion-isotopic self diffusion reaction kinetics using 82 Br as a radioactive tracer isotope, Asian J.Chem. 15, 33 (2003)
[86]  Effect of ionic size on equilibrium constant of some uni-bivalent ion exchange Reactions, Asian J.Chem. 13, 50 (2001)
[87]  Study on ion exchange equilibria involving I-/SO4 2-and I-/C2O4 2-uni-bivalent Ion exchange Systems, Asian J.Chem. 13, 43 (2001)
[88]  Study on variation of equilibrium constant in some uni-bivalent ion exchange Systems, Asian J.Chem. 13, 20 (2001)
[89]  Ionic size effect on equilibrium constant for some uni-bivalent ion exchange Reactions, Asian J.Chem. 13, 13 (2001)
[90]  Study on variation of equilibrium constants as a function of ionic size in some uni-univalent ion exchange systems, Asian J.Chem. 13, 8 (2001)
[91]  Comparative study on ion-isotopic self diffusion reactions using radio tracer isotopes 131I, and 82Br Nuclear and Radiochemistry Symposium (NUCAR), by Board of Research in Nuclear Sciences, Department of Atomic Energy, University of Pune, India, February (2001)
[92]  Study on effect of ionic charge on ion exchange equilibria involving uni-Univalent and uni-bivalent ion exchange systems Asian J.Chem. 12, 1003 (2000)
[93]  Comparative study on uni-univalent and uni-bivalent ion exchange reaction as a function of ionic charge, Asian J.Chem. 12, 997 (2000)
[94]  Study of temperature effect on uni-univalent/bivalent ion exchange reaction Asian J.Chem. 12, 990 (2000)
[95]  Ion exchange equilibria involving uni-Univalent, uni-bivalent exchange systems to study effect of ionic charge on equilibrium constant Asian J.Chem. 12, 214(2000)
[96]  Study of equilibrium constants of Cl-/Br-ion exchange system using Strongly basic anion exchanger Amberlite IRA-400 Asian J.Chem. 11, 758 (1999)
[97]  Determination of equilibrium constant of I-/C2O4 2-uni-bivalent ion exchange system using strongly basic anion exchanger Amberlite IRA-400 Indian J. Chem. 38A, 87 (1999)
[98]  Variation of equilibrium constant as a function of ionic size in Cl-/SO4 2-, I-/SO4 2-ion exchange systems Res. J. Chem. Environ. 3(3), 25 (1999)
[99]  Application of tracer technique in validation of industrial grade ion exchange resin Amberlite IRA-400 using 82 Br as a tracer isotope Samyak J.Chem., 3, 24 (1999)
[100]  Study on equilibrium constant of ion exchange reaction involving Cl-/I-Uni-univalent ion exchange system in the strongly basic anion exchanger Amberlite IRA-400 Asian J.Chem. 10, 1026 (1998)
[101]  Study of uni-bivalent ion exchange equilibria in Cl-/SO42-system using strongly basic anion exchanger Amberlite IRA-400 Asian J.Chem. 10, 898 (1998)
[102]  Application of tracer isotope in kinetic study of first order ion exchange Reaction, Asian J.Chem. 10, 894 (1998)
[103]  Comparative study of forward and reverse ion exchange reaction in Amberlite IRA-400 by application of tracer isotope-131I Asian J.Chem. 10, 890 (1998)
[104]  Application of radioactive Tracers in Upgradation of industrial grade ion exchange resin (Amberlite IRA-400) Asian J.Chem. 10,630 (1998)
[105]  Kinetics of ion exchange resin Amberlite IRA-400 Asian J.Chem. 10,364 (1998)
[106]  Study of ion exchange equilibria involving I-/SO42-Uni-bivalent ion exchange system using strongly basic anion exchanger Amberlite IRA-400 Orient. J. Chem. 14(2), 247 (1998)
[107]  Equilibrium Study of CI-/I-ion exchange system in Amberlite IRA-400 Orient. J. Chem. 14(2), 303(1998)
[108]  Ion exchange equilibrium in Cl-/C2O4 2-exchange system using strongly basic anion exchanger Amberlite IRA-400 Chem. Environ. Res. 7 (3&4), 283 (1998)
[109]  Ion exchange equilibria in CI-/Br-exchange system using strongly basic anion exchanger Amberlite IRA-400 Chem. Environ. Res. 7 (1&2), 129 (1998)