Dr. S. Chandra

Retired Professor
Ph D (Allahabad University)
Contact Information:
Tel. +91 542 2316499
Email Id:schandra@banaras.ernet.in

 
 
Academic Qualifications:
 
S. No.DegreeInstitutionYear
1.M.Sc.Allahabad University1957
2.Ph. D.Allahabad University1962
 
Brief writeup on area of specialization/awards/achievements:
 

PHYSICS ( MATERIALS SCIENCE AND SOLID STATE ELECTRONICS)

  • Solid State Ionics ( Superionic solids and devices)
  • Ion Conducting Polymers/gels/Ionic Liquids
  • Solid State Electronics/Interface Properties
  • Microwave Physics/ Dielectrics
  • Photoelectrochemical Solar Cells
  • Electrodeposition of Semiconductors
  • Fractals
Awards/Honours:
  1. Krishnaji Memorial Award(National Academy of Sciences,2008)
  2. Chief Editor,Proceeding National Academy of Sciences,India(2007- Continuing)
  3. Vice-President, National Academy of Science, 2005-2006
  4. Fellow, National Academy of Sciences, India (since
  5. Council Member, National Academy of Sciences; 1979-80, 1996, 1998-2002
  6. President, Materials Science Section, Indian Science Congress 2002-2003
  7. Vice-President, Asian Solid State Ionics Society, 1990-95.
  8. Chairman, Third Asian Conference on Solid State Ionics, 1992
  9. Chairman, Sixth Asian Conference on Solid State Ionics, 1998
  10. President, Indian Solid State Ionics Society
  11. Executive Member, Asian Solid State Ionics Society (1986-90)
  12. Council Member (1987-1989), International Society of Solid State Ionics, Also 1992-93, 1994
  13. International Scientific Committee Member; Solid State Ionics International Conference1983, 1985, 1987, 1989, 1991, 1993, 1995, 1999, 2001, 2003.
  14. International Advisory Committee Member; Solid State Protonic Conductors International Conference 1994, 1996
  15. International Advisory Committee for “Polymer Electrolytes” Conference in Japan (1998)
  16. Principal Speaker, Training Workshop on “Electrodeposition of Solids”, University of Malaya, Kuala Lumpur, Malaysia, 1993
  17. Jaycees Award for Educationist of the year 1975
  18. UGC National Lecturer (1985)
  19. Recorder (Materials Science Section), Indian Science Congress 1991 and 1992.
  20. Member, Editorial Board, Indian Journal of Pure and Applied Physics (1987-89)
  21. Member, Editorial Board, National Academy Science Letter (1987-90, 1997-1999, 2002-continuing
  22. Member, Editorial Board, European Journal of Solid State Inorganic Chemistry, 1995-1999
  23. Member, Editorial Board, International Journal of Ionics (Germany), 2000-continuing

 
Research Projects:
 

Several from DST,CSIR,UGC and MNES

 
Any additional information:
 

(1) Positions Held

  1. Lecturer (1958-1964) Allahabad University
  2. Reader (1964-1972) Gorakhpur University
  3. Professor & Head (1972-1979) Ravishanker University, Raipur
  4. Professor (1979-1998) Banaras Hindu University
  5. Coordinator, Centre of Advanced Studies in Physics, Banaras Hindu University, 1986-1998
  6. Dean, Faculty of Science, Ravishanker University, Raipur (1973-75, 1977-79)
  7. Dean, Faculty of Science, Banaras Hindu University, (1992, 1997-98)
  8. Head, Department of Physics, Banaras Hindu University (1982-84)
  9. Post Doctoral Fellow (1967-1969), National Research Council, Ottawa (CANADA)
  10. Research Associate, Summer 1970, 1971, 1973, National Research Council, Ottawa (CANADA)
  11. Visiting Professor, University of Buenos Aires 1966-67; University of California 1976; Pennsylvania State University 1977
  12. JSPS-INSA senior visiting fellow (Nogoya University, JAPAN), 1994
  13. Visited and lectured at many Universities abroad
  14. Emeritus Scientist (C.S.I.R.): 1999 – 2003
  15. Emeritus Fellow (U.C.G.): 2004-2006
  16. Distinguished visiting Professor , University Technologie Mara, Malaysia (April-July 2009,April-Aug 2008)
(2) Research Achievements( summary)
  1. Research level/Advanced books: 9 (list attached)
  2. Other books/Publication: 3
  3. Research papers: Approx. 220 (list attached)
  4. Number of Ph.D. thesis supervised: 40

List of 10 major Publications:

  1. S. Chandra IETE Technical Review 27, 179-180, 2010. “On the discovery of polarity dependent Memory switch and/or Memristor (Memory resistor)”.
  2. S. Chandra, S.S.Sekhon, Ritu Srivastava and N.Arora Solid State Ionics (Netherlands) 154-155, 609-619, 2002 Proton Conducting Gel Electrolytes
  3. Amita Chandra and S. Chandra Phys. Rev. B. (USA) 49, 633, 1994 Experimental observation of large size fractal in ion conducting polymer electrolyte Films.
  4. B. Halder, R.M.Singru, K.K. Maurya and S. Chandra Phys. Rev. B. 54, 7143, 1996. Temperature dependence of positron annihilation lifetime, free volume, conductivity, ionic mobility and number of charge carriers in a polymer electrolyte
  5. Amita Chandra, M.K. Shukla, P.C. Mishra and S. Chandra Phys. Rev. E (USA) 51, R1, 1995. Fractal growth in UV-irradiated DNA: Evidence of non-universal diffusion limited Aggregation
  6. Neelam Srivastava, Amita Chandra and S. Chandra Phys. Rev. B (USA) 52,225, 1995. Studies on dense branched growth of (SCN)x and ion transport in PEO.NH4SCN polymer electrolyte.
  7. S. Chandra and S.N.Sahu J. Phys. D. (UK) 17, 2115, 1984. Electro-deposited semiconducting molybdenum selenide films, Paret-I, preparatory technique and structural characterization
  8. S. Chandra and J. Rolfe Cand. J. Phys. (Canada) 48, 412, 1970. Ionic conductivity of potassium chloride crystals
  9. S. Chandra, G.K. Pandey and V.K. Agrawal Phys. Rev. (USA) 144, 738, 1966. Entropy of vacancies in ionic crystals
  10. Krishnaji and S. Chandra J. Chem. Phys. (USA) 38, 232, 1963. J. Chem. Phys. (USA) 38, 1049, 1963. J. Chem. Phys. (USA) 38, 2490, 1963. Molecular interaction and linewidth of asymmetric molecule SO2 I. SO2-N2 collisions: Parts I, II and III.
Full List of Publications:
[A] RESEARCH LEVEL/ADVANCED BOOKS
  1. S. Chandra SUSPERIONIC SOLIDS (North Holland, Amsterdam, 1981)
  2. S. Chandra PHOTOELECTROCHEMICAL SOLAR CELLS (Gordon and Breach, New York, 1985)
  3. A.L. Laskar and S.Chandra SUPERIONIC SOLIDS AND SOLID (Eds) ELECTROLYTES - RECENT TRENDS (Academic Press, New York, 1989)
  4. B.V.R. Chowdari, S. Chandra SOLID STATE IONICS : MATERIAL AND S.Singh,P.C. Srivastava (Eds) DEVICES (World Scientific Pub., Singapore, 1992)
  5. R.K. Pandey, S.N. Sahu and HANDBOOK OF SEMICONDUCTOR S.Chandra ELECTRODEPOSITION (Marcel Dekker, New York, 1996)
  6. B.V.R. Chowdari, K. Lal, SOLID STATE IONICS : SCIENCE AND S.A. Agnihotry, N.Khare, TECHNOLOGY (World Scientific Pub., Singapore, S.S. Sekhon, P.C. Srivastava, 1998) and S. Chandra (Eds)
  7. S. Chandra (Series Editor) ELECTROACTIVE POLYMERS: MATERIALS with Eds. N.Khare, S.A.Hashmi, and DEVICES, Vol. 1 (Allied Press, 2006) A. Chandra and A. Chandra
  8. S. Chandra (Series Editor) ELECTROACTIVE POLYMERS: MATERIALS with Eds. S.A. Hashmi, and DEVICES. Vol. 2(Allied Press, 2007) A. Chandra and A. Chandra
  9. S.Chandra (series Editor) Electroactive Polymers; Materials and Devices. with Eds. S.A.Hashmi, Vol.3(Macmillan Press 2009) A. Chandra and A. Chandra
(B) OTHER BOOKS/PUBLICATIONS
  1. S.Chandra and Krishnaji SPECIAL ISSUE ON “CHAOS, DISORDER (Guest Co-Editors) AND FRACTALS” (Proceeding, National Academy of Sciences, Allahabad, 1996)
  2. S.Chandra (Chairman, Authors team); N.C.E.R.T. TEXT BOOK ON PHYSICS, Coauthor’s : Arvind Kumar, Vol. 1 (2002). A.S. Nigvekar, Rajaram Nityanand, P.C. Jain, D.P. Tewari, Vijay A. Singh, B.K. Sharma and V.P. Srivastava
  3. S.Chandra (Chairman, Authors team); N.C.E.R.T. TEXT BOOK ON PHYSICS, with Coauthor’s as above Vol. 2 (2003). Publications of Prof. S. Chandra (Continued)
(C) RESEARCH PAPERS

    1959
  1. S. Chandra and B.P. Srivastava Zeit. fur Astrophys. (Germany) 47, 127 Absorption of microwave inplanetary atmospheres.
    1960
  2. S. Chandra Jour. Brit. Interplanet. Soc. (U.K.) 17, 362 Optimum frequency selection for interplanetary communication
    1962
  3. S. Chandra Jour. Inst. Telecomm. Engrs. 5, 252 Space Communication - effect of microwave absorption by water vapour in earth’s atmospheres
  4. Krishnaji and S. Chandra Proc. Phys. Soc. (U.K.), 79, 665 Calculated linewidth due to dipole-quadrupole interaction in the asymmetrimolecules SO2
    1963
  5. Krishnaji and S. Chandra J. Chem. Phys. (USA) 38, 232 Molecular interaction and linewidth of asymmetric molecule SO2 I. SO2-N2 collisions
  6. Krishnaji and S. Chandra J. Chem. Phys. (USA) 38, 1049 Molecular interaction and linewidth of asymmetric molecule SO2 II. SO2-CO2 collisions
  7. Krishnaji and S. Chandra J. Chem. Phys. (USA) 38, 2490 Molecular interaction and linewidth of asymmetric molecule SO2 III. SO2-CH3Br and SO2-SO2 collisions.
  8. S. Chandra Chem. Engg. (U.K.) Glass-metal seal for low vacuum
    1964
  9. Krishnaji, S. Chandra and S.L. Srivastava J. Chem. Phys. (USA) 41, 409 Quadrupole moments from OCS self-broadening of microwave spectrum
  10. S. Chandra Proc. Inst. Electt. Radio Engg., 96 Possible use of microwaves for interplanetary communication
    1965
  11. S. Chandra and V.K. Agrawal Phys. Rev. (USA) 139A, 952 Dielectric relaxation in ionic crystals due to vacancy pairs.
    1966
  12. S. Chandra and V.K. Agrawal Proc. Phys. Soc. (UK) 22, 3403 Entropy of activation for vacancy pair in alkali halides
  13. S. Chandra, G.K. Pandey and V.K. Agrawal Phys. Rev. (USA) 144, 738 Entropy of vacancies in ionic crystals
  14. S. Chandra and S. Chandra Tetrahedron (UK) 22, 3402 Group electronegativity of radicals
    1967
  15. S. Chandra and V.K. Agrawal J. Phys. Chem. Solids (UK) 28, 1955 Entropy of vacancy pair formation in ionic crystals
  16. S. Chandra and R.A. Yadav Ind. J. Pure Appl. Phys. 5, 491 Microwave absorption in asymmetric molecule SO2
  17. S. Chandra and V.K. Agrawal Cand. J. Phys. (Canada) 45, 2589 On the polar impurities trapped in an ionic crystal matrix.
    1968
  18. S. Chandra and J. Prakash Ind. J. Pure and Appl. Phys. 6, 116 A new method for determining dielectric relaxation time from polarizability plot-I. Nearly spherical molecules
  19. S. Chandra and S.C. Srivastava Ind. J. Pure Appl. Phys. 6, 700 Viscosity dependence of relaxation time of 1.3 dibromopropane 20. S.C. Srivastava, J. Prakash, V.K. Mehrotra and S. Chandra J. Chem. Phys. (USA) 49, 1964 Molar polarization and molecular association in some substituted anilines
    1969
  20. S. Chandra and R.A. Yadav Ind. J. Pure Appl. Phys. 7, 715 Microwave dispersion in asymmetric SO2 molecules
  21. S. Chandra, G.K. Pandey and V.K. Agrawal J. Phys. Chem. Solids (UK) 30, 1644 Rotational barriers for OH trapped in KCl, KBr, NaCl and RbCl matrices
  22. S. Chandra Cand. J. Phys. (Canada) 47, 969 High temperature dielectric constant of KI
  23. S. Chandra and D. Nath J. Chem. Phys. (USA) 51, 5299 Dielectric relaxation in nitroalkenes
    1970
  24. S. Chandra and J. Rolfe Cand. J. Phys. (Canada) 48, 397 Ionic conductivity of potassium iodide crystals
  25. S. Chandra and J. Rolfe Cand. J. Phys. (Canada) 48, 412 Ionic conductivity of potassium chloride crystal;s
  26. S. Chandra and D. Nath Bull. Chem. Soc. (Japan) 43, 1614 Solvent effects in dielectric studies
    1971
  27. S. Chandra and J. Prakash J.Chem. Phys. (USA) 54, 5366 Dielectric relaxation in dibromoalkanes
  28. S. Chandra and J. Rolfe Cand. J. Phys. (Canada) 49, 2098 Ionic conductivity of potassium bromide crystals
  29. S. Chandra and J. Prakash J. Phys. Chem. (USA) 75, 2616 Dielectric relaxation in dibromoalkanes in benzene solution
  30. S. Chandra and J. Prakash J. Chimie Phys. (France) No. 7-8, 1128 Dielectric behaviour of substituted ethanes
    1972
  31. S. Chandra and S.C. Srivastava J. Phys. Soc. (Japan) 32, 506 Viscoelastic relaxation behaviour of viscous solvents from dielectric relaxation studies of microwave frequencies
  32. S. Chandra and J. Prakash Cand. J. Phys. (Canada) 50, 1053 High temperature dielectric constant of rubidium halides
  33. S. Chandra and R.A. Yadav J. Chem. Phys. (USA) 69, 1018 Dielectric relaxation in dichloroalkanes
  34. S. Chandra, J. Prakash and R.A. Yadav Current Science 41, 806 Dipole moments of some cholesteryl liquid crystals
  35. S. Chandra, J. Prakash and R.A. Yadav J. Phys. Soc. (Japan) 33, 1175 Dielectric relaxation in benzene solution
  36. S. Chandra, H.B. Lal and K. Shahi J.Phys. D. (UK) 5, 443 Thermo-electric power of highs conductivity solid electrolyte KAg4I5
  37. S. Chandra and J. Rolfe Cand. J. Phys. (Canada) 52, 236 Ionic conductivity of rubidium iodide crystals
  38. S. Chandra and B. Bahadur Current Science 42, 51 Magnetic susceptibility of a room temperature liquid crystals MBBA
  39. S. Chandra and R.A. Yadav Bull. Chem. Soc. (Japan) 46 Dielectric relaxation in dichloroalkanes in benzene solution
  40. S. Chandra and R.A. Yadav J. Chim. Phys. ( France) 70, 272 Viscoelastic relaxation behaviour of viscous solvents from dielectric relaxation studies of microwave frequencies
  41. S. Chandra and B. Bahadur J. Chim. Phys. (France) 70, 605 Odd-even effect in dipole moments of some liquid crystalline cholesteryl esters
  42. S. Chandra and J. Prakash J. Phys. Soc. (Japan) 35, 976 A method for evaluating the dielectric relaxation parameters in solution
  43. R.A. Yadav, V.K. Mehrotra and S. Chandra Ind. J. Pure and Appl. Phys. 11, 220 Molecular association in o- and m-ethyl phenols
  44. S. Chandra J. Electrochem. Soc. (USA) 120, 1705 The thermal power of the solid electrolyte AgMI5 and of molten mixtures of the same composition - A comment
    1974
  45. S. Chandra, B.H. Lal and K. Shahi J. Phys. D. Appl. Phys. (UK) 7, 194 An electrochemical cell with solid superionic KAg4I5 as the electrolyte
    1975
  46. S. Chandra and V.K. Mohabey J. Phys. D. Appl. Phys.(UK) 9, 579 Optical absorption and stability of superionic solid RbAg4I5
  47. K. Shahi and S. Chandra Phys. Stat. Solidi (Germany) 28, 653 Electrical conductivity and thermoelectric power of a new superionic solid Ag6I4WO4
  48. K. Shahi and S. Chandra Z. Naturforsch. (Germany) 30A, 1055 EMF measurements of the thermocell Ag(T)/AgI/Ag(T)2
  49. K. Shahi, N.K. Sanyal and S. Chandra J. Phys. Chem. Solid (UK) 36, 1349 Thermoelectric power of (Me4N)2Ag13I15 and (Et4N)2Ag13I15.
  50. S.C. Srivastava and S. Chandra Ind. J. Pure and Appl. Phys. 13, 101 Dielectric relaxation in substituted anilines
  51. K. Shahi and S. Chandra J. Phys. C. (UK) 8, 2255 Electrical conductivity of solid electrolytes Ag13(Q4N)2I16 (Q = CH3 and C2H5)
  52. B. Bahadur, J. Prakash, K. Tripathi and S. Chandra Acustica 33, 217 Specific volume of a nematic liquid crystal N-phenylloxy (benzalidene) p-toluidine
    1976
  53. B. Bahadur and S. Chandra J. Phys. C. Cond. Matter (UK) 9, 5 Specific volume studies of the nematic liquid crystals: EBBA
  54. B. Bahadur, S. Chandra and N.K. Sanyal Phys. Stat. Solidi (Germany) 35 Phase transition studies of the liquid crystal n-octyl oxybenzalidene-p-toluidine (OBT)
  55. K. Shahi and S. Chandra J. Phys. C. Cond. Matter (UK) 9, 3105 Thermoelectric power of the superionic conductors Ag4MI5 (M = K, Rb)
  56. S. Chandra and B. Bahadur J. Phys. Soc. (Japan) 41, 237 Wada constants of some nematic liquid crystals.
    1978
  57. S. Bhushan, M. Saleem and S. Chandra Pramana 10, 1 Photo and electroluminescence of ZnO:Er and ZnO:Ag, Br Electroluminors
  58. S. Chandra, R.C. Agrawal and R.K. Pandey Nat. Acad. Sci. Lett. 1, 112 A thin film solid state battery using superionic solid NH4Ag4I5
    1979
  59. S. Chandra and V.K. Mohabey Phys. Stat. Solidi (Germany) (9) 53, 66 Superionic solid films I: Formation and electrical conductivity of KAg4I5
  60. S. Chandra, A.K. Jaiswal and R.K. Mishra Nat. Acad. Sci. Lett. 2, 23243 Unusual monotropic liquid crystalline behaviour in dimethylamino substituted schiff bases.
    1980
  61. S. Chandra and R.K. Pandey Phys. Stat. Solidi (Germany) 59, 737 A photoelectrochemical cell for solar energy conversion using electrode deposited CdSe films
  62. S. Chandra, R.C. Agrawal and R.K. Pandey Phys. Stat. Solidi (Germany) 57, 299 Superionic solid film II-preparation and electrical conductivity of anion substituted silver iodide based superionic solid Ag7I4PO4
  63. S. Chandra, R.K. Pandey and R.C. Agrawal Solar Cell (UK) 1, 367 Solar energy conversion using photoelectrochemical cells with low cost substrates
  64. S. Chandra, R.K. Pandey and R.C. Agrawal J. Phys. D. (UK) 13, 1767 Solar energy conversion by photoelectrochemical cells using chemical bath deposited CdS films
  65. S. Chandra, J.N. Sharma, V.K. Mohabey and R.C. Agrawal J. Phys. D. (UK) 13(3), 498 Superionic solid film III: Preparation and electrical conductivity of cation substituted silver and iodide based superionic solid NH4Ag4I5
  66. S. Chandra and R.C. Agrawal J. Phys. D. (UK) 13(9), 196 Superionic solid film IV : Preparation and electrical conductivity of cation substituted silver iodide based superionic solid (CH3)4N2Ag13I15
  67. S.Chandra and R.C. Agrawal J.Phys. Soc; Japan 48(6), 2171. Surface diffusion coefficient of iodine in some superionic solid films.
  68. S.Chandra and R.C. Agrawal: in “Nat. Acad. Science Golden Jubilee Commemoration Volume” Ed. U.S.Srivastava(National Acad. Sci., Allahabad) Solid State Battery - Prospects and Limitations
    1981
  69. S. Chandra, R.C. Agrawal and N. Singh Solid State Ionics (Netherlands), 2, 315 Photolysis of MAg4I5 superionic films.
  70. S. Chandra and A.K. Jaiswal Ind. J. Pure Appl. Phys. 19, 23 Phase transition studies in cholesteryl acetate.
    1982
  71. S. Chandra and R.K. Pandey Phys. Stat. Solidi(Germany) 72A, 415 Semiconductor photoelectrochemical solar cells - A review. 1983
  72. S. Chandra and N. Singh J. Phys. C. (UK) 16, 3081 Fast proton transpsort in hydrazine sulphate. Part I - Coulometric, conductivity and optical studies
  73. S. Chandra and N. Singh J. Phys. C. (UK) 16, 3099 Fast proton transport in hydrazine sulphate. Part II- NMR linewidth and relaxation studies
  74. R.C. Agrawal, N. Singh and S. Chandra Solid State Ionics (Netherlands) 9&10, 1455 Characterization of electro-deposited films of MAg4I5.
  75. S. Chandra and N. Singh Solid State Ionics (Netherlands) 9&10, 1067 Proton transport in solid hydrazine sulphate.
    1984
  76. S. Chandra and S.N.Sahu J. Phys. D. (UK) 17, 2115 Electro-deposited semiconducting molybdenum selenide films, Paret-I, preparatory technique and structural characterization
  77. S. Chandra, D.P. Singh, P.C. Srivastava and S.N. Sahu J. Phys. D. (UK) 17, 2125 Electro-deposited semiconducting molybdenum selenide films. Part-II, Optical, electrical, electrochemical and photoelectrochemical solar cell studies
  78. S. Chandra, D.P. Singh and S.N. Sahu Solid State Commun. (UK) 51, 829 A simple theoretical model for photoelectrochemical solar cells.
  79. S. Chandra Mat. Sci. Forum 1, 1953 Fast proton transport in solids
    1985
  80. S. Chandra, O.N. Srivastava and S.N. Sahu Phys. Stat. Sol. (a) (Germany) 88, 497 Electrodeposited tungsten selenide films: I, Preparatory technique and structural characterization
  81. S. Chandra and S.N. Sahu Phys. Stat. Sol. (a) (Germany) 89, 321 Electrodeposited tungsten selenide films : II. Optical, electrical, electgrochemical characterization and photoelectrochemical solar cell studies
  82. S.L. Singh, A.K. Saxena, Rama Swamy, R.P. Singh and S. Chandra J. Phys. E. Sci. Instrum. (UK) 18, 187 Circuit for quick monitoring of solar cell parameters.
  83. S.A. Hashmi, S.K. Tolpadi and S. Chandra Nat. Acad. Sci. Lett. 18(1), 29 Temperature and frequency dependence of conductivity of the proton conductor hydrazine sulphate.
  84. S. Chandra In “Transport-structure relation in fast ion and mixed conductors” pp. 365-370, ed. by E.W. Poulson, N. Hessel Anderson, K. Clausen, S. Skaarup and C. Toft Sorensen (RISO National Labaoratory), Rlouskilde, Denmark (1985) Fast proton conductors
  85. S. Chandra, B.B. Srivastava and N. Khare, Solid State Commun. (UK) 56, 975 Liquid crystal assisted photoelectrochemical solar cells with chlorophyll photoelectrode
  86. S. Chandra and H.D. Gujrati Indian Patent Appl. 1022/Del/85 Solid State Ionic dehumidifier
  87. S. Chandra and S.N. Sahu J. Sci. Res., 35 61-90 Photoelectrochemical Solar Cells - An Overview
    1986
  88. S.K. Tolpadi, S. Chandra and S. Hashmi Solid State Ionics (Netherlands) 18&19, 1008
  89. S. Chandra, B. Singh and N. Singh Solid State Ionics (Netherlands) 18&19, 1095 Similtaneous poroton and oxygen ion transport in solid molybdic acid due to possible electrolysis of inter layer water of crystallization
  90. S. Chandra, S.L. Singh and N. Khare Mol. Crystal Liquid Cryst. (USA) 135, 265 Liquid crystal assisted photoelectrochemical solar cells with chlorophyll photoelectrode
  91. S. Chandra, S.L. Singh and N. Khare J. Appl. Phys. (USA), 1570 A theoretical model of photoelectochemical solar cells.
  92. S. Chandra, N. Singh and B. Singh Solid State Commun. (UK) 57, 519 Evidence of electrolysis of water of crystallization.
  93. S. Chandra, N. Singh and S.A. Hashmi Proc. Ind. Nat. Sci. Acad. 52A, 338., Fast proton conductors
  94. R.P. Singh, S.L. Singh and S. Chandra J. Phys. D. (UK) 19, 1299 Electrodeposited film of CuInSe2
    1987
  95. S. Chandra, N. Singh, B. Singh, A.L.Verma, S.S. Khatri and T. Chakraborty J. Phys. Chem. Solids (UK) 48, 1165 Laser Raman studies under d.c. bias and fast ion transport in molybdic acid
  96. S.N. Sahu and S. Chandra Solar Cells (UK) 22, 168 Chemical bath deposited CdS and CdS:Li films and their use in photoelectrochemical solar cells.
  97. S. Chandra and N. Khare Semicond. Sci. Technol. (UK) 2, 214 Electrodeposited gallium arskenide films: I. Preparation, structural, optical and electrical studies
  98. S. Chandra and N. Khare Semicond. Sci. Technol. (UK) 2, 220 Electrodeposited gallium arsenide film: II. Electrochemical and photoelectrochemical solar cell studies
    1988
  99. S. Chandra, N. Khare and H.M. Upadhyaya Bull. Mat. Sci. 10, 323 Photoelectrochemical solar cells using electrodeposited GaAs and AlSb semiconductor films
  100. S. Chandra and A. Kumar In “Solid State Ionics Devices” Eds. B.V.R. Chowdari and S. Radhakrishna (World Scientific Pub., Singapore, 1988) Electrode type behaviour in solid electrolyte mixture
  101. P.C. Srivastava, D. Tripathi and S. Chandra Semicond. Sci. Tech. (UK) 3, 1033 Deep states in hydrogenated Pd/Si devices.
  102. S. Chandra In “Solid State Ionic Devices” Ed. B.V.R. Chowdari and S. Radhakrishna (World Scientific, Singapore, 1988) Proton Conductors and their applications in solid state electrochemical devices
  103. S. Chandra, S.K. Tolpadi and S.A. Hashmi; Solid State Ionics (Neatherland) 28, 651-655 Transient Ionic Current measurement of ionic mobilities in a few proton conductors.
    1989
  104. S. Chandra and N. Khare J. Electrochem. Soc. (USA) 136, 2856 Photoelectrolysis and in-situ storage of solar energy.
  105. S. Chandra and Ajay Kumar Mat. Res. Bull. (USA) 24, 417 Electrogravimetric analysis - a new analytical tool applied to solid hydrates and proton conductors
  106. D. Tripathi, P.C. Srivastava and S. Chandra Phys. Rev. B. (USA) 39, 13420 Hydrogen passivation studies on Pd-n type Si devices.
  107. S. Chandra, S.K. Tolpadi and S.A. Hashmi J. Phys. C: Condens. Matter (UK) 1, 9101 Experimental studies on the ionic (protonic) transport in ammonium paratungstate pentahydrate
  108. S. Chandra In “Superionic Solids and Solid Electrolytes” Ed. A.L. Laskar and S. Chandra (Academic Press, New York, 1989
    1990
  109. S.Chandra and S.A. Hashmi J. Mater. Sci. (U.K.), 25,2459 Proton transport mechanism in ammonium dihydrogen phosphate
  110. S. Chandra, S.A. Hashmi and G. Prasad Solid State Ionics (Netherlands) 40&41, 651 Studies on ammonium perchlorate doped polyethylene oxidxe polymer electrolyte
  111. S. Chandra and S.A. Hashmi Solid State Ionics (Netherlands) 40-41, 460
  112. S. Chandra and A. Kumar Solid State Ionics (Netherlands) 40-41, 863 Proton conduction in some solid hydrates and KDP-ferroelectric family materials.
  113. S. Chandra and Ajay Kumar Solid State Ionics (Netherlands) 40-41, 255 Electrogravimetric analysis - A potential technique for studying proton conducting hydrates
  114. S.A. Hashmi, A. Kumar, K.K. Maurya and S. Chandra J. Phys. D.: Appl. Phys. (UK) 23, 1307. Proton conducting polymer electrolyte I: Polyethylene oxide + NH4ClO4
  115. S. Chandra, K.K. Maurya and S.A. Hashmi In “Recent Advances in Fast Ion Conducting Materials and Devices” Eds. B.V.R. Chowdari, Q. Liu and C. Liquan (World Scientific, Singapore, 1990), p.549 Proton conducting polymers.
    1991
  116. R.K. Pandey, S.R. Kumar, A.J.N. Rooz and S. Chandra J. Mat. Sci. (UK) 26, 3617 Composition, surface morphology and structure of n-CdSe films prepared by repeated cycles of electrodeposition
  117. R.K. Pandey, S.R. Kumar, A.J.N. Rooz and S. Chandra Thin Solid Films (Netherlands) 200, 1 Photoelectrochemical and solar cells studies of n-CdSe films grown by repeated cycles of electrodeposition
  118. P.C.Srivastava, S. Chandra and U.P. Singh Semicond. Sci. Technol. (UK) 6, 1126 Acceptor states in Pd/n-GaAs device and effect of hydrogenation.
  119. D. Tripathi, P.C. Srivastava and S. Chandra Solid state Electronics (UK) 35, 1185 Studies on hydrogenated Pd/p-type Si diodes
  120. S. Chandra and A. Kumar J. Phys. : Condens. Mater. (UK) 3, 5271 Investigations on proton transport mechanism in potassium dihydrogen phosphate.
    1992
  121. S.A. Hashmi, D.K. Rai and S. Chandra J. Mater. Sci. (UK) 27, 175 Protonic conduction in Al2(SO4)2.16H2O: Coulometry, TIC, IR and electrical conductivity studies.
  122. K.K. Maurya, N. Srivastava, S.A. Hashmi and S. Chandra J. Mater. Sci. (UK) 27, 6357 Proton conducting polymer electrolyte: II Polyethylene oxide + NH4I system
  123. Ajay Kumar, S.A. Hashmi and S. Chandra Bull. Mater. Sci. 15, 191 Proton transport in KDP-family of ferroelectric materials
  124. K.K. Maurya, S.A. Hashmi and S. Chandra J. Phys. Soc. Japan 61, 1709 Proton conducting polymer electrolyte : Polyethylene oxide + (NH4)2SO4 system.
  125. S.A. Hashmi, Kamlesh Pandey and S. Chandra J. Phys. D: Appl. Phys. (UK) 25, 1152 Protonic transport in dehydrated aluminium sulphate.
  126. K.S. Sidhu, S.S. Sekhon and S. Chandra Phys. Chem. of Glasses (UK) 33, 212 Copper ion transport in CuI based molybdate - tungstate glassesPEO
  127. D.K. Rai and S. Chandra In “Solid State Ionics : Materials and Applications”, Eds. B.V.R. Chowdari et al. (World Scientific Pub., Singapore), p. 40 Proton conducting gel:Sodium meta silicate+hydrazine sulphate
  128. Amita Chandra, P.C. Srivastava and S. Chandra ibid, p. 397 PEO based composite poloymer electrolyte employing activated and unactivated Al¬ 2O3
  129. Ajay Kumar, K.M. Shaju and S. Chandra ibid, 487. Ionic transport and battery characteristic studies on AgI-Ag2O-PbO-B2O3 glassy system
  130. N. Srivastava, S.A. Hashmi and S. Chandra ibid, p. 561 Ion and hole transport in polyethylene succinate + NH4ClO4 system.
  131. S.A. Hashmi, Amita Chandra and S. Chandra ibid, p. 567 Ion transport studies in PEO + NaPF6 polymer electrolyte
  132. K.K. Maurya, S.A. Hashmi and S. Chandra ibid, p53 Evidence of ion association in polymer electrolyte by direct mobility measurement
  133. Kamlesh Pandey, S.A. Hashmi and S. Chandra ibid, p. 689 Ion transport in dehydrated aluminium sulphate and studies in its rehydration kinetics.
  134. P.C. Srivastava, U.P. Singh and S. Chandra ibid, p.679 Hydrogen ion (H+ and H-) in silicon
  135. H.M. Upadhyaya, D.P. Singh and S. Chandra ibid, P. 683 Memory switching behaviour in Ti/CdxPb1-x due to Pb++ ion motion.
    1993
  136. K.S Sidhu, S.S. Sekhon, S.A. Hashmi and S. Chandra J. Mater. Sci. Lett. (UK) 12, 340 Ionic transport in polyethylene oxide-CuI polymer electrolyte
  137. K.S Sidhu, S.S. Sekhon, S.A. Hashmi and S. Chandra Eur. Polym. J. (UK) 29, 779 Studies on poly(ethylene oxide)-CuSCN polymer electrolyte
  138. Amita Chandra and S. Chandra Curr. Sci. 64, 775 Large size fractal in ion conducting polymers
  139. S. Chandra, S.A. Hashmi, M. Saleem and R.C. Agrawal Solid State Ionics (Netherlands) 67, 1 Investigations on polyethylene oxide based polymer electrolyte complexed with AgNO3
    1994
  140. Suresh Chandra In “Fifth Asia Pacific Physics Conference” Eds. S.P. Chia, K.S. Low, M. Othman, C.S. Wong, C. Chew and S.P. Moo (World Scientific, Singapore) Polymer electrolytes and applications.
  141. K.S Sidhu, S.S. Sekhon, and S. Chandra J. Phys. D: Appl. Phys. (UK) 27, 133 Ion transpsort in copper boromolybdate glasses.
  142. Amita Chandra and S. Chandra Phys. Rev. B. (USA) 49, 633 Experimental observation of large size fractal in ion conducting polymer electrolyte films
  143. K.M. Shaju and S. Chandra Phys. Stat. Sol. (b) (Germany) 181, 301 Silver ion conducting borate glass: evidence of ion association from temperature dependent mobility, conductivity and IR spectral studies
  144. Amita Chandra and S. Chandra J. Phys. D : Appl. Phys. (UK) 27, 1 Mixed anion effect in polyethylene-oxide-based sodium-ion-conducting polymer electrolytes
  145. A. Chandra and S. Chandra In “Solid State Ionics Materisls” eds. B.V.R.Chowdari, M. Yahaya, I.A. Talib and M.M. Salleh (World Scientific, Singapore) p.355 Effect of alumina dispersed on the conductivity and crystallise size of polymer electrolyte.
  146. K.S Sidhu, S.S. Sekhon, and S. Chandra J. Phys. Soc. Japan 63, 3334 Ionic/electronic charge transport in copper molybdate glasses prepared under different conditions
  147. S.S. Rao, K.V.S. Rao, M. Shareefuddin, U.V. Subba Rao and S. Chandra Solid State Ionics (Netherlands) 67, 331 Ionic conductivity and battery characteristic studies on PEO+AgNO3 polymer electrolyte
  148. S. Chandra and A. Chandra Proc. Nat. Acad. Sci. 64, 141 Solid State Ionics : Materials aspect
  149. Ajay Kumar, K.M. Shaju and S. Chandra Cand. J. Phys. 73 Ion transport in silver-lead-borate glasses and evidence of ion association.
  150. Amita Chandra, P.C. Srivastava and S. Chandra J. Mat. Sci. (UK) 30 Ion transport studies in PEO:NH4I polymer electrolytes with dispersed Al2O3
  151. H.M. Upadhyay and S. Chandra J. Mat. Sci. (UK) 29, 2734 Chemical bath deposition of band gap tailored CdxPb1-xS films
  152. P.C. Srivastava, C. Colluza, S. Chandra and U.P. Singh Solid State Electronics (UK) 37, 520 Al/n-Si diodes with low energy (~ 100 eV) hydrogen ion implantation prior to metallisation
    1995
  153. U.P. Singh., P.C. Srivastava and S.Chandra Semicond. Sci. Tech. (UK) 1, 1 Donor states in Pd/p-GaAs and effect of hydrogenation
  154. H.M. Upadhyay and S. Chandra Semicond. Sci. Tech. (UK) 10, 332 Polarity dependent memory switching effects in the Ti/CdxPb1-xS/Ag system
  155. K.M. Shaju and S. Chandra J. Mat. Sci. (UK) 30, 3457 Experimental studies and space charge mechanism for the conductivity/mobiolity enhancement due to SnO2 dispersion in Ag+ ion conducting borate glass
  156. A. Chandra and S. Chandra Bull. Electrochem. 11, 88 Mixed effect in solid electrolyte : A Review
  157. S. Chandra In “Handbook of Solid State Batteries and Capacitors” Eds M.Z.A. Munshi (World Scientific, Singapore) p. 579 Solid State proton conductors and their applications
  158. Amita Chandra, M.K. Shukla, P.C. Mishra and S. Chandra Phys. Rev. E (USA) 51, R1 Fractal growth in UV-irradiated DNA: Evidence of non-universal diffusion limited agregation
  159. Suresh Chandra In “Sensors-2” (Proc. 2nd International Seminar on Physics and Technology of Sensors, Pune) Eds. R.N. Karekar and S.A. Gangal p. 14-1 Solid Electrolyte based gas sensors
  160. Neelam Srivastava, Amita Chandra and S. Chandra Phys. Rev. B (USA) 52,225 Studies on dense branched growth of (SCN)x and ion transport in PEO.NH4SCN polymer electrolyte
  161. K.K. Maurya, B. Bhattacharya and S. Chandra Phys. Stat. Sol.(a) (Germany) 147, 347 Hydrogen ion transport studies in PEO.NH4HSO4 polymer electrolyte
  162. S. Chandra, Amita Chandra and K.K. Maurya Bull.Electrochem. 11, 103 Effect of mixed ion doping concentration and temperature on the ionic transference number, mobility and carrier concentration in polymer electrolytes
  163. S.S. Sekhon, Gurjinder Singh, S.A. Agnihotry and S. Chandra Solid State Ionics (Netherlands), 80 Solid Polymer electrolytes based on PEO:AgSCN
  164. K.K. Maurya and S. Chandra In “Sensors-2” (Proc. 2nd International Seminar on Physics and Technology of Sensors, Pune) Eds. R.N. Karekar and S.A. Gangal, p.C27-1 Proton conducting electrolytes as humidity sensors.
  165. S.A. Hashmi and S. Chandra Materials Sci. & Engg. B. – Solid State Materials for Advanced Technology (U.K.), 34, 18-26.
    1996
  166. D.K. Rai and S. Chandra In “Solid State Ionics : New Developments, eds. B.V.R. Chowdari, M.A.K.L. Dissanayake and M.A. Careem (World Scientific, Singapore), p.517 Structural and ion transport studies in sodium metasilicate based proton conducting gels doped with some proton conducting salts
  167. S.A. Hashmi and S. Chandra Mat. Sci. & Engg. B. (Netherlands) 34, 18 Experimental investigations on a sodium ion conducting polymer electrolyte based on polyethylene oxide complexed with NaPF6.
  168. S. Chandra, D.K. Rai and K. Pandey In “Solid State Ionics: New Developments, eds. B.V.R. Chowdari, M.A.K.L. Dissanayake and M. Careem (World Scientific), p.236 Intermediate temperature proton conductors: Dehydrated salts and doped sodium metasilicate based dried gels.
  169. S. Chandra and Amita Chandra ibid, p. 127 Fractal pattern growth in polymeric matrix.
  170. Neelam Srivastava and S. Chandra ibid, p.411 Effect of plasticizer on poly(ethylene succinate) + NH4ClO4 system.
  171. Bhaskar Bhattacharya and S. Chandra ibid, p.417 Photoresponse of silicon-polymer electrolyte (PEO:NH4X and PEO:NaX) junction
  172. K.M. Shaju and S. Chandra ibid, p. 511 Frequency dependence conductivity studies on silver-lead-borate glasses.
  173. Lakshmi N., K. Pandey and S. Chandra ibid, p. 523 Studies on proton conducting composite electrolyte based on salt hydrates
  174. S.S. Sekhon, G.S. Siddhu, S. Agnihotry and S. Chandra Bull. Electrochem. 12, 415 PEO:AgSCN:Al2O3 - A new composite polymer electrolyte
  175. K.M. Shaju and S. Chandra Solid State Ionics (Netherlands), 86-88, 453 Temperature dependence of ionic carrier concentration and mobility in the silver borate glasses
  176. D.K. Rai and S. Chandra Solid State Ionics (Netherlands) 86-88 , 373 Sodium metasilicate based proton conducting gels
  177. Bhaskar Bhattacharya, H.M. Upadhyaya and S. Chandra Solid State Commun. (UK) 98(7) , 633 Photoelectrochemical studies of an ion conducting polymer (PEO)/semiconductor (Si) junction
  178. B. Halder, R.M.Singru, K.K. Maurya and S. Chandra Phys. Rev. B. 54, 7143 Temperature dependence of positron annihilation lifetime, free volume, conductivity, ionic mobility and number of charge carriers in a polymer electrolyte
    1997
  179. N. Srivastava and S. Chandra Phys. Stat. Solidi (a) (Germany 163, 313 Ion transport studies in polyethylene succinate: NH4SCN system
  180. D.K. Rai and S. Chandra J. Phys. D : Appl. Phys. (UK) 30, 2078 Studies on sodium metasilicate plus hydrazine sulphate gel as a possible proton conductor : Structure and ion transport studies
  181. D. K. Rai and S. Chandra J. Phys. D: Appl. Phys. (UK) 30, 2089 Studies on sodium metasilicate plus hydrazine sulphate gel as a possible proton conductor : II. Evidence for H+ and Na+ ion motion from NMR linewidth studies
    1998
  182. N.Lakshmi,K.Pandey,P.K.Singh and S. Chandra in “Solid State Ionics: Science & Technology” Eds. B.V.R.Chowdari et al (World Scientific,Singapore) p.65-70 (1998). New interfacial phase formation in NiCl2.6H2O:Al2O3 Composite and Ion Transport Properties
  183. Ritu Srivastava,D.K.Rai,B.Singh and S.Chandra in Solid State Ionics: Science & Technology” Eds. B.V.R.Chowdari et al (World Scientific,Singapore) p.317-324 A Proton Conducting Gel using Precursor Tetraethyl Orthosilicate( TEOS) Doped with H3PO4
  184. B.Bhattacharya, A.Chandra, N.Srivastava and S.Chandra in Solid State Ionics: Science & Technology” Eds. B.V.R.Chowdari et al (World Scientific,Singapore) p.189-194 Semiconductor Dispersed Polymer Electrolyte Composites
  185. K.Pandey,N. Lakshmi and S.Chandra J. Power Sources (U.K.) 76, 116-123 A rechargebale Solid State Battery with an intercalating cathode and an anode containing a hydrogen-storage material
  186. B.Halder, R.M. Singru, S.Chandra J. Polymer Science, 36,969-976 Positron Annihilation Lifetime Studies of Free Volume in a Polymer Electrolyte PEO Complexed with NH4I.
    1999
  187. S.S. Sekhon and S. Chandra J. Mat. Sci. (USA) 34, 289 Mixed cation effect in Silver borate ion conducting glass
  188. Ritu Srivastava, D.K. Rai and S. Chandra Ind. J. Pure Applied Phys. 37, 272 Ion transport in matasilicate based new gel system x Na2SiO3 + (100-x) NH4BF4.
  189. K. Pandey, N. Lakshmi and S. Chandra Ind. J. Pure Applied phys. 37, 242 Transport and thermal behavior of composite xH3PMo12O46.nH2O + (1-x)Al2O3.
  190. R. Srivastava, D.K.Rai and S. Chandra Phys. Stat. Solidi (Germany) 173, 323 Studies on a solid state proton conducting Gel
  191. S.S.Sekhon and S.Chandra J. Mat. Sci. Letter. (USA) 18, 635 Effect of replacement of glass modifier Ag2O by Na2O in silver borate ion conducting glass.
    2000
  192. Neelam Srivastava and S. Chandra European Polymer Journal 36, 421 Studies on a new proton conducting polymer system: Polyethylene Suceinate + NH4ClO4
  193. S.Chandra, S.S.Sekhon and N. Arora Ionics (Germany) 6, 112 PMMA based protonic polymeric gel electrolytes
    2001
  194. N. Lakshmi and S. Chandra Phys. Stat. Solidi(a) [Germany] 186, 383 Proton conducting composites of hetropolyacid hydrates with salt
  195. R.Srivastava and S. Chandra In “ Ion Conducting Material” Eds. A.R. Kulkarni and P. Gopalan ( Narosa Pub.2001) p. 144 Electrical characterization and preparation of NH4BF4 doped silica alcogel by sol-gel method using TEOS as precursor.
  196. N. Lakshmi and S. Chandra In “ Ion Conducting Material” Eds. A.R. Kulkarni and P. Gopalan ( Narosa Pub.2001) p. 139 Studies as a new proton conducting composite electrolyte x. H3PW12O40.nH2O + (1-x) Al2(SO4)3.16H2O.
    2002
  197. . N. Lakshmi and S. Chandra J. Mat. Sci. (USA) 37,249 Proton conducting composites of heteropolyacid hydrates ( phosphoricacid and phosphotungstic acids) dispersed with insulating Al2O3.
  198. S.S.Sekhon, N.Arora, B. Singh and S.Chandra J.Mat. Sci. (U.S.A.) 37, 2159-2162 Protonic polymer gel electrolyte based on carboxylic acids: Ortho and Inductive effect.
  199. N Lakshmi and S. Chandra J. Power Sources (U.K.) 80, 256-260 Rechargeable solid state battery using a proton conducting composite as Electrolyte.
  200. R. Srivastava and S. Chandra Phys. Status Solidi (a) (Germany) 191, 202-216 Ion transport and structural studies on a TEOS precursor derived silica alcogel doped with acid H3PO4”.
  201. P.K.Singh, A. Chandra and S.Chandra. J. Mat. Sci. Letters (U.S.A.) 21, 1393-1395 Polymer Electrolyte Composites with Dispersed Semiconductors
  202. N.Lakshmi and S.Chandra Bull.Mater.Sci. 25,197-201 Ion transport in some solid state proton conducting composites studied from volta cell e.m.f. and complex impedance spectroscopy
  203. S.Chandra, Ritu Srivastava &A.Chandra in “Solid State Ionics- Trends in the new Millenium” Editors B.V.R. Chowdari et al (World Scientific, Singapore,2002)p.679-687 Ion conducting porous alcogels: some interesting possibilities
  204. S. Chandra, S.S.Sekhon, Ritu Srivastava and N.Arora Solid State Ionics (Netherlands) 154-155, 609-619 Proton Conducting Gel Electrolytes.
  205. R. Srivastava and S. Chandra Solid State Ionics (Netherlands) 152-153, 741-747 Silica alcogel based proton conducting solid-liquid electrolyte composite.
  206. A. Chandra, P.K.Singh and S. Chandra Solid State Ionics, (Netherlands) 154-155,15-20. Semiconductor Dispersed Polymer Electrolyte Composite.
  207. R. Srivatava and S. Chandra Prog. Crys. Growth &Charact. Materials, (U.K.) 44, 133-139 Whisker growth from porous silica alcogel matrix.
    2003
  208. S.S.Sekhon, N.Arora and S. Chandra European Polymer Journal 39, 915-920 Proton conducting polymer gel electrolyte with NO2 substituted carboxylic acids.
    2006
  209. S Chandra, S B Rai, Pramod K Singh, Kaushal Kumar and Amreesh Chandra J. Phys. D: Appl. Phys. (U.K.) 39, 3680–3683 On the correlation between the thermal and electrical transport in ionic conductors
  210. S. Chandra ., S.B. Rai, Pramod K. Singh, Kaushal Kumar, Amreesh Chandra; Solid State Ionics (Netherlands) 177, 1613-1617 Thermal diffusivity and electrical conductivity in fast ion conducting composites: A Correlation
  211. A. Chandra, P.K. Singh and S. Chandra in “ Solid State Ionics ” Edited by B.V.R. Chawdari et al (world Scientific Singapore , 2006) Dependence of conductivity enhancement on the dielectric constant of the dispersoid in polymer-ferroelectric composite electrolyte
  212. R. Pratap, B. Singh and S. Chandra J. Power Sources (UK), 161, 703-706 Polymeric rechargeable solid state proton battery
  213. A. Chandra, P.K. Singh, D.P.Singh, N. Khare and S. Chandra Ionics (Germany) 13, Ionic Noise measurement in polymer electrolytes
    2008
  214. R.K.Singh ,M.P.Singh,R.P.Singh, S.K.Chaurasia and S.Chandra Solid State Ionics” (Eds) b.B.V.R.Chowdari et al (Macmillan Pub.) , pp.53-58 Studies on Polymer Electrolyte using Ionic Noise and Ultrasonic Velocity Measurement Technique: Determination of Tm
    2009
  215. S.K.Chaurasia, M.P.Singh, R.K.Singh and S.Chandra In “Electroctroactive Polymers: Polymers: Materials & Devices” Vol.3, (Eds.) S.A.Hashmi,Amita Chandra and Amreesh Chandra. (Macmillan Pub.) pp.140-145 “Ionic conductivity of Polymer (Poly-ethylene Oxide) and ionic liquid composites.
  216. M.P.Singh, S.K.Chaurasia, R.K.Singh & S.Chandra Published in “electro active Polymers: Materials & Devices” Vol.3 (Eds) S.A.Hashmi, Amita Chandra and Amreesh Chandra.(Macmillan Pub.,2009,vol.3,383-388) Determination of Tm of Poly (Ethylene Glycol) from temperature dependent viscoelastic studies: evidence of formation of salvation shell.
  217. M. P. Singh, R.K. Singh and S. Chandra Phase Transitions (U.K.), l82, 599-606. A new technique for determination of Melting Temperature of Poly (Ethylene Glycol) by Ultrasosssnic Velocimetry,
    2010
  218. S. Chandra IETE Technical Review 27, 179-180. “On the discovery of polarity dependent Memory switch and/or Memristor (Memory resistor)”.
  219. M.P. Singh, R.K. Singh and S. Chandra J. Phys. D Appl. Phys. 43, 1-4 (092001) Thermal Stability of Ionic liquid in confined geometery
  220. M.P. Singh, R.K. Singh and S. Chandra Chem. Phys. Chem. (DOI: 10.1002/cphc.200900983) Properties of Ionic liquid confined in porous Silica Matrix
  221. S.K. Chaurasia, R.K. Singh and S. Chandra Structural and transport studies on Polymer (PEO+IL) electrolyte membranes: Evidence of Complexation. (Communicated)