Publications

 

  1. Switching-on Superparamagnetism in diluted magnetic Fe (Ⅲ) doped CdSe Quantum Dots Amar Nath Yadav, Jasleen K. Bindra , Narendra Jakhar , Kedar Singh CrystEngComm (2020) DOI: 10.1039/C9CE01391A
  2. Investigation of Photophysical Properties of Ternary Zn−Ga−S Quantum Dots: Band Gap versus Sub-Band Gap Excitations and Emissions Amar Nath Yadav, Kedar Singh ACS Omega 2019 4 (19), 18327-18333
  3. Strong electromagnetic wave absorption and microwave shielding in the Ni-Cu@MoS2/rGO composite. Jagdees Prasad, Ashwani K. Singh, Monika Tomar, Vinay Gupta and Kedar Singh Journal of Materials Science: Materials in Electronics, 30( 2019) 18666–18677
  4. CdSe/V2O5 Core/Shell Quantum Dots Decorated Reduced Graphene Oxide Nanocomposite for High-Performance Electromagnetic Interference Shielding Application Ashwani Kumar Singh, Krishna Kamal Haldar, Monika Tomar, Vinay Guptab and Kedar Singh * Nanotechnology (2019) , Accepted
  5. Vanadium doped few-layer ultrathin MoS2 nanosheets on reduced graphene oxide for highperformance hydrogen evolution reaction Ashwani Kumar Singh, Jagdees Prasad, Uday Pratap Azad, Ashish Kumar Singh, Rajiv Prakash, Kedar Singh,* Amit Srivastava, Andrei A. Alaferdova and Stanislav A. Moshkalev RSC Advances 9 (2019) 22232
  6. CoFe2O4 nanoparticles decorated MoS2-reduced graphene oxide nanocomposite for improved microwave absorption and shielding performance Jagdees Prasad, Ashwani Kumar Singh, Krishna Kamal Haldar, Monika Tomar, Vinay Guptab and Kedar Singh * RSC Advances 9 (2019) 21881
  7. Antiferromagnetic exchange in ultrasmall, uniform, and monodisperse chromium oxide nanocrystals Amar Nath Yadav, Kedar Singh Materials Letters 252,(2019) 84-87
  8. Ultrafast Charge Carrier dynamics in CdSe/V2O5 core/shell Quantum Dots
    Amar Nath Yadav, Ashwani Kumar Singh, Shubhda Srivastava, Mahesh Kumar, Bipin Kumar Gupta, Kedar Singh* Physical Chemistry Chemical Physics , 21(2019) 6265
  9. Electromagnetic interference shielding effectiveness in 3D flower-like MoS2-rGO/gadolinium-doped nanocomposites. Jagdees Prasad , AK Singh, KK Haldar , Vinay Gupta , Kedar Singh* Journal of Alloys and Compounds 788 (2019) 861-872
  10. Enhanced Electrocaloric Effect and Energy Storage Density in Lead-Free 0.8Na0.5Bi0.5TiO3-0.2SrTiO3 Ceramics Ajit Kumar, Raju Kumar, Kedar Singh, and Satyendra Singh Phys. Status Solidi A (2019) 1800786
  11. Surface modification of CdS quantum dots: an effective approach for improving biocompatibility
    Amar Nath Yadav, Rahul Kumar, Rishi K Jaiswal, Ashwani Kumar Singh, P Kumar and Kedar Singh* Materials Research Express, 6( 5) (2019) 120
  12. Evidence of Ferrimagnetism in Fe-Doped CdSe Quantum Dots Jasleen K. Bindra, George Kurian, Jonathan H. Christian, Johan Van Tol, Kedar Singh,∥ Naresh S. Dalal, Mogus D. Mochena, Sebastian A. Stoian, and Geoffrey F. Strouse Chemistry of Materials, 30 ( 2018)8446−8456
  13. Carrier type reversal in Pb modified Se80In20 semiconducting glassy alloys Indra Sen Ram, Jagjiwan Ram & Kedar Singh* Indian Journal of Pure & Applied Physics, 56( 2018) 440-443
  14. Optical properties of Highly Luminescent, Monodisperse, and Ultrastable CdSe/V2O5 Core/Shell Quantum Dots for In-Vitro imaging Amar Nath Yadav, Ashwani K. Singh, Prem Prakash Sharma, Pratima R. Solanki, and Kedar Singh J of Material Science: Materials in Electronics (2018) https://doi.org/10.1007/s10854-018-9984-1
  15. Glass-forming ability and thermal stability of Se1002x(Ge2Sb2Te5)x glassy alloys. Ajit Kumar, Indra Sen Ram, Sunil Kumar, Jagjiwan Ram, A. N. Upadhyay, Kedar Singh*, J of Thermal Analysis & Calorimetry (2018) doi.org/10.1007/s10973-018-7412-7
  16. Synthesis of MoS2-reduced graphene oxide/Fe3O4nanocomposite for enhanced electromagnetic interference shielding effectiveness Jagdees Prasad, Ashwani Kumar Singh, Jyoti Shah, R K Kotnala and Kedar Singh Materials Research Express, 5( 5) (2018) 120
  17. Lightweight Reduced Graphene Oxide-Fe3O4 Nanoparticle Composite for the Quest of Excellent Electromagnetic Interference Shielding Material. AK Singh , Ajit Kumar, KK Haldar , Vinay Gupta , Kedar Singh Nanotechnology (IOP) 29(2018) 245204
  18. Experimental Validation of Ferromagnetic–Antiferromagnetic Competition in FexZn1–xSe Quantum Dots by Computational Modeling Jasleen K. Bindra, Lavrenty Gennady Gutsev, Johan Van Tol, Kedar Singh, Naresh S. Dalal and Geoffrey F. Strouse Chemistry. Materials., 30 (6)(2018), 2093
  19. An efective approach to study the biocompatibility of Fe3O4 nanoparticles, graphene and their nanohybrid composite Ashwani Kumar Singh, Pallavi Singh, Rajiv Kumar Verma, Suresh Yadav, Kedar Singh Amit Srivastava Applied Nanoscience, DOI 10.1007/s13204-018-0678-z
  20. Annealing effect on thermal conductivity and microhardness of carbon nanotube containing Se80Te16Cu4 glassy composites A N Upadhyay , R S Tiwari and Kedar Singh Mater. Res. Express 5 (2018) 025203
  21. Shape and Size-Dependent Magnetic Properties of Fe3O4 Nanoparticles Synthesized Using Piperidine Ashwani Kumar Singh, O. N. Srivastava and Kedar Singh Nanoscale Research Letters 12 (2017) 298
  22. Kinetics of phase transformation of carbon nanotube containing Se85Te10Ag5 glassy composites A. N. Upadhyay, and Kedar Singh Materials Research Express, IOP 3 (2016) 125201
  23. Study of optical properties of vacuum evaporated carbon nanotube containing Se80Te16Cu4 thin films A. N. Upadhyay, R. S. Tiwari, and Kedar Singh* Materials Research Express, IOP 3 (2016), 086405
  24. Optical and electrical properties of carbon nanotube- containing Se85Te10Ag5 glassy composites AN Upadhyay, RS Tiwari, Kedar Singh* Philosophical Magazine 96 (2016) 576-583
  25. Glass transition and crystallization kinetics of Se98− xCd2Inx (x= 0, 2, 6 and 10) glassy alloys Sunil Kumar and Kedar Singh * J. of Thermal Analysis and Calorimetry, 124 (2016) 675-682
  26. Microstructural and thermal investigations of carbon nanotube additive Se80Te16Cu4 glassy composites AN Upadhyay, RS Tiwari, Kedar Singh* Materials Letters 164 (2016), 449-451
  27. Electrical and dielectric properties of carbon Nanotube containing Se85Te10Ag5 glassy composites A.N Upadhyay, R.S. Tiwari and Kedar Singh Adv. Mater. Lett 6 (2015) 1089
  28. Electrical conduction mechanism in Se90-xTe5Sn5Inx ( X= 0, 3, 6 and 9) multi-component glassy alloys
    I S Ram, Sunil Kumar, R K Singh, P S Singh and Kedar Singh AIP Advances 5, (2015) 087164-7 ISSN: 2158 3226
  29. Effect of carbon nano tube additive on the structural and thermal properties of Se85Te10Ag5 glassy alloys A.N Upadhyay, R.S. Tiwari and Kedar Singh J. Thermal Anal. Calorimetri 15 (2015) 4825-6
  30. Electro-optical, UV absorbance, and UV photoluminescence analysis of Se95In5 chalcogenide glass microparticle doped ferroelectric liquid crystal Dharmendra Pratap Singh, Swadesh Kumar Gupta, Shivani Pandey, Kedar Singh, and Rajiv Manohar JOURNAL OF APPLIED PHYSICS 115, 214103 (2014) ISSN: 0021-8979
  31. Study of Glass-Transition Kinetics of Pb-Modified Se80In20 System by using Non-isothermal Differential Scanning Calorimetry Indra Sen Ram and Kedar Singh Int J Thermo-physics 35 (2014) 123-135
  32. Enhancement of electrical, thermal and mechanical properties of carbon Nanotube additive Se85Te10Ag5 glassy allys A.N Upadhyay, R.S. Tiwari and Kedar Singh Materials Letters, 136 (2014) 445-448
  33. Effect of Cs-on morphological, optical and electrical properties of Bi2Te3 nanostructures Punita Srivastava and Kedar Singh Materials Letters, 136 (2014) 337-340
  34. Study of Crystallization Process in Se80In10Pb10 by Iso-Conversional Methods Indra Sen Ram, Kedar Singh
    Journal of Crystallization Process and Technology, 2013, 3, 49-55
  35. Layered Sb2Te3 nanoflakes as chalcogenide dielectrics Punita Srivastava and Kedar Singh J of Electronic Materials 42(2013) 2733-2738
  36. Synthesis and dielectric relaxation behavior of metallic Bi2Te3 Nanotube Punita Srivastava and Kedar Singh Materials Letters, 108 (2013) 25-28,
  37. Thermal and mechanical properties of CNT-Se90-XTe10AgX (0, 5and 10) glassy composites. Indra Sen Ram, Kedar Singh* Journal of Alloys and Compounds, 576 (2013) 358-362, ISSN: 0925-8388 (International J.)
  38. Low temperature reduction route to synthesis bismuth telluride (Bi2Te3) nanoparticles: structural and optical studies Punita Srivastava and Kedar Singh* Journal of Experimental Nanoscience (In Press) 2013
  39. Two Dimensional Bi2Te3 nano-sheets with enhanced electrical and dielectric properties : scope of novel storage renewable energy in nanoelectronics Punita Srivastava and Kedar Singh Science of Advanced materials Volume 5, Number 7, July 2013, pp. 836-843(8)
  40. Effect of Pb addition on dielectric relaxation in Se80In20 glassy system Indra Sen Ram, R K Singh, P Singh, Kedar Singh* Journal of Alloys and Compounds, 552 (2013) 480–485,ISSN : 0925-8388 (International J.)
  41. Morphological evolution in single-crystalline Bi2Te3 nanoparticles, nanosheets and nanotubes with different synthesis temperatures Punita Srivastava and Kedar Singh Bull. Mater. Sci., 34, No. Accepted-2012,
  42. Synthesis of CdSe nanoparticles by solvothermal route: Structural, Optical and Spectroscopic properties
    Punita Srivastava and Kedar Singh* Advanced Materials Letters (Accepted)-2012
  43. Structural and Thermal properties of chemically synthesized Bi2Te3 nanoparticles Punita Srivastava and Kedar Singh J. of Thermal Analysis and Calorimetry DOI: 10.1007/s10973-012-2553-6 (In press)-2012)
  44. Effect of PbadditiveoncrystallizationkineticsofSe80In20 glassy matrix Indra Sen Ram, Kedar Singh Physica B: Condensed Matter 407 (2012) 3472
  45. Effect of Indium additive on thermal Transport properties of Se-Te-Cd multi- component chalcogenide glasses
    Sunil Kumar and Kedar Singh* J. of Thermal Analysis and Calorimetry, 10.1007/s10973-012-2440-1 ( In press)-2012
  46. Evidence of a ZnCr2Se4 Spinel Inclusion at the Core of a Cr-Doped ZnSe Quantum Dot Weiwei Zheng, Kedar Singh, Zhenxing Wang, Joshua T. Wright, Johan van Tol, Naresh S. Dalal, Robert W. Meulenberg, and Geoffrey F. Strouse J . of American Chemical Society 134 (2012) 5577-5585
  47. Low temperature synthesized thermoelectric Sb2Te3 irregular nanoflakes Punita Srivastava and Kedar Singh* Materials Letters doi:10.1016/j.matlet.2012.01.087
  48. Investigations on structural, optical and second harmonic generation in solvothermally synthesized pure and Cr-doped ZnO nanoparticles P. Kumar, J. Singh, Kedar Singh, R. S. Tiwari, O. N. Srivastava and A. C. Pandey CrystEngComm 14 (2012)1653
  49. Glass Transition, Thermal stability and glass-forming tendency of Se90-xTe5Sn5Inx multicomponent chalcogenide glasses Sunil Kumar and Kedar Singh* Thermochimica Acta, 528 (2012) 32-37
  50. Effect of some metallic additives ( Ag, Cd and Sn) on thermal transport properties of a-Se A. Sharma, K. Singh and N Mehta J of therm. Anal. Calorim. DOI: 10.1007/s10973-011-1801-5
  51. Room temperature ferromagnetism in magic- sized Cr- doped CdS dilute magnetic semiconducting quantum dots P .Srivastava, P. Kumar and K. Singh J. of Nano particle research ,13 (2011)5077- 5085
  52. Simultaneous measurements of thermal conductivity and thermal diffusivity of Se90-xTe5Sn5Inx ( x = 0, 3, 6 and 9) multi-component chalcogenide glasses Sunil Kumar and Kedar Singh J Mater Sci. 47 (2012) 3949
  53. Calorimetric studies of thermal crystallization in glassy Se80-XTe20SnX (0≤x≤10) alloys H Kumar, N Kumar and K Singh Phys. Scr. 83 (2011)065602
  54. The effect of Indium additives on crystallization kinetics and thermal stability of Se-Te-Sn chalcogenide glasses Sunil Kumar and Kedar Singh* Physica B 406, (2011)1519
  55. Localized structural growth and kinetics of Se98-XZn2InX (0≤x≤10) amorphous alloys A. K. Singh and Kedar Singh* Physica Scripta, 83, (2011), 025605
  56. Calorimetric studies of non-isothermal crystallization in amorphous CuxTi100–x alloys N Mehta K Singh and N S Saxena Bull. Mater. Sci., 34, No. 7( 2011) 1459–1463
  57. Synthesis, characterizations, and optical properties of copperselenide quantum dots Pushpendra Kumar , Kedar Singh* Structural Chemistry 22(2011) 103-110
  58. Calorimetric studies of glass transition in glassy Se75Te15-xCd10Inx alloys using non- isothermal DSC technique Sunil Kumar, Kedar Singh* and Neeraj Mehta Physica Scripta, 82, (2010), 04560-04565.
  59. Observation of Meyer Neldel rule and crystallization rate constant stability for Se93−xZn2Te5Inx chalcogenide glasses A K Singh and Kedar Singh* The European Physical Journal of Applied Physics, 51(3) (2010)30301
  60. Template Free -Solvothermaly Synthesized Copper Selenide (CuSe, Cu2-xSe, β-Cu2Se and Cu2Se) Hexagonal Nanoplates from Different Precursors at Low Temperature Pushpendra Kumar, Kedar Singh* and O. N. Srivastava Journal of Crystal Growth, 312, (2010), 2804-2813.
  61. Structural, Optical and Raman studies of Template-free Solvothermaly Synthesized ZnSe/ZnSe: Ce3+ Nanoparticles Pushpendra Kumar and Kedar Singh* Journal of Luminescence, 130, (2010), 2026-2031.
  62. Wurtzite ZnSe quantum dots: Synthesis, Characterization and PL properties Pushpendra Kumar and Kedar Singh* Journal of Optoelectronics and advanced materials 1, (2009) 59-69.
  63. Calorimetric studies of Se75Te15Cd10 and Se75Te10Cd10In5 multicomponent chalcogenide glasses Sunil Kumar, Kedar Singh* Physica B: Condensed Matter 405, (2010), 3135-3140.
  64. Template-free Solvothermaly Synthesized ZnSe/ZnSe: Eu3+ Nanoparticles, Structural, Optical and Raman Studies Pushpendra Kumar and Kedar Singh* Current Nanoscience 6, (5) 402-407, (2010).
  65. Calorimetric studies of crystallization kinetics of Se75Te15-xCd10Inx multicomponent chalcogenide glasses using non-isothermal DSC S Kumar, K Singh*, N Mehta Philosophical Magazine Letter, 90, (2010), 547-557.
  66. Ferromagnetism in Cu doped ZnSe Semiconducting Quantum Dots Pushpendra Kumar and Kedar Singh* Journal of Nanoparticle Research, 13 (2011) 1613- 1620.
  67. Synthesis of CdSe nanoparticles at 50 0C by wet chemical method Pushpendra Kumar and Kedar Singh* Current Nanoscience, 6, (1) 89-93, (2010).
  68. Study of dielectric properties of Se-Zn -In chalcogenide glasses A.K. Singh, N. Mehta, K. Singh* Optoelectronics and advanced materials-Rapid Communication 12, (2010), 1700-1705.
  69. Effect of high energetic ionic radiation in thermally activated crystallization of Co66Si15B16Fe6Ni1 metallic glass: Observation of MN rule N. Mehta, K. Singh* & N. S. Saxena Radiation Effects and Defects in Solids, 166 (4) (2011) 251-257
  70. Effect of In and Zn additives on some thermal properties of a-Se N. Mehta, K. Singh* & N. S. Saxena Solid State Science, 12 (2010) 963-965.
  71. Effect of Lithium ion-irradiation on glass transition kinetics of glassy Se98In2 alloy H. Kumar, N. Mehta*, K. Singh & N. S. Saxena Phase Transitions, 83 (2010) 1-9.
  72. Composition dependence of thermal stability, micro-hardness and compactness in glassy Se90In10-xGex alloys H. Kumar, N. Mehta*, K. Singh & A. Kumar Physica B, 404 (2009) 3761-3765.
  73. Calorimetric studies of glass transition phenomenon in glassy Se80-xTe20Snx alloys H. Kumar, N. Mehta & K. Singh* Physica Scripta, 80 (2009) 065602.
  74. Effect of annealing below crystallization temperature on structural and mechanical properties of Co66Si16B12Fe4Mo2 metallic glass Pushpendra Kumar, Kedar Singh*, T.P. Yadav, O.N. Srivastava.
    Journal of Optoelectronics and advanced materials 11, (8), 1082-1087, (2009).
  75. Element directed aqueous solution synthesis of copper telluride nanoparticles characterizations and optical properties Pushpendra Kumar and Kedar Singh* Crystal growth & Design, 9, (7), 30089-30094, (2009).
  76. Composition dependence UV-Visible and MID-FTIR properties of Se98-xZn2Inx (X= 0, 2, 4, 6 and 10) chalcogenide glasses Abhay Kumar Singh and Kedar Singh* Journal of Modern Optics 56, 471-476, (2009).
  77. Crystallization kinetics and thermal stability of Se98-xZn2Inx chalcogenide glasses, Abhay Kumar Singh and Kedar Singh* Philosophical Magazine, 89, 1457–1472, (2009).
  78. Effect of indium additive on glass forming ability and thermal stability of Se-Zn-Te chalcogenide glasses
    A. K. Singh, N. Mehta & K. Singh* Philosophical Magazine Letters, 90 (2010) 201-208.
  79. Optical and FTIR properties of Se93-xZn2Te5Inx Chalcogenide Glasses A. K. Singh, N. Mehta & K. Singh* Physica B, 404 (2009) 3470–3474.
  80. Co-relation between pre-exponential factor and activation energy of non-isothermal crystallization for virgin and irradiated Fe78B13Si9 metallic glass N. Mehta, K. Singh* & N. S. Saxena Physica B, 404 (2009) 2184–2188.
  81. Effect of ionic irradiation on the pre-exponential factor of thermally activated crystallization in Co66Si16B12Fe4Mo2 metallic glass N. Mehta, K. Singh* & N. S. Saxena Journal of Physics and Chemistry of Solids, 70 (2009) 811–815.
  82. On the glass transition phenomenon in Se-Te and Se-Ge based ternary chalcogenide glasses N. Mehta, K. Singh*, A. Kumar Physica B, 404 (2009)1835-1838.
  83. Electrical properties of Se-Zn -In chalcogenide glasses A. Singh, N. Mehta & K. Singh* The European Physical Journal Applied Physics, 46 (2009) 20303.
  84. Observation of inverse Meyer-Neldel rule in thermally activated crystallization of hybrid composite of phenol formaldehyde N. Mehta, K. Singh* & S. Kumar Philosophical Magazine, 89 (2009) 797 – 806.
  85. Correlation between Meyer-Neldel Rule and phase separation in Se98-xZn2Inx chalcogenide glasses A. Singh, N. Mehta & K. Singh* Current Applied Physics, 9 (2009) 807-811.
  86. Electrical Properties of Se93-xZn2Te5Inx Chalcogenide Glasses A. K. Singh, N. Mehta & K. Singh* Chalcogenide Letters, 6 (2009) 9-14.
  87. Effect of Lithium ion-irradiation on crystallization kinetics of glassy Se98In2 alloy H. Kumar, N. Mehta*, K. Singh & N. S. Saxena Philosophical Magazine Letters, 89 (2009) 126-135.
  88. Effect of Sb and Sn additives on the activation energies of glass transition and crystallization in binary Se85Te15 alloy N. Mehta, K. Singh* & S. Kumar Phase Transitions, 82 (2009) 43-51.
  89. Comparative Analysis of Thermal Crystallization in Cu50Ti50 and Cu50Zr50 Metallic Glasses N. Mehta, K. Singh* & N. S. Saxena Physica B, 403 (2008) 3928-3931.
  90. Effect of annealing on structures and effective thermal conductivity of Se90In10 chalcogenide glass, Abhay Kumar Singh, Kedar Singh*, N.S.Saxena Journal of Ovnic Research 4, 107 – 111, (2008).
  91. Comparative Analysis of Some Thermo-physical Properties of Se90Zn10 and Te90Zn10 alloys N. Mehta, K. Singh* & N. S. Saxena Thermochimica Acta, 475 (2008) 80-82.
  92. Effect of Slow Neutron Radiation on the Pre-exponential Factor of Thermally Activated Crystallization in Se96In4 Chalcogenide Glass N. Mehta, K. Singh* & N. S. Saxena Journal of Physics D: Applied Physics, 41 (2008) 135406.
  93. Pre-exponential Factor for the Non-Isothermal Crystallization in Glassy Se85-xTe15Sbx (0 ≤ x ≤ 10) Alloys N. Mehta & K. Singh* Philosophical Magazine, 88 (2008) 1411-1421.
  94. Temperature dependence of effective thermal conductivity and effective thermal diffusivity of Se90In10 bulk chalcogenide glass Kedar Singh*, Abhay Kumar Singh and N.S. Saxena Current Applied Physics, 8, 159-162, (2008).
  95. Correlative study of optical, electrical and thermal transport properties of Se100-xInxchalcogenide glasses, Abhay Kumar Singh, Kedar Singh* Journal of Optoelectronics and Advanced Materials 9, 3756 – 3759, (2007).
  96. Thermo-physical properties of Se-Te-Sb vitreous chalcogenide semiconductors Pushpendra Kumar, Kedar Singh* Chalcogenide Letters 4, (2007), 127-132.
  97. Thermal Transport in Se81Te15Sb4 Chalcogenide Glass A.K. Singh, Pushpendra Kumar, Kedar Singh* and N.S.Saxena Chalcogenide Letters, 3, (2006), 139–144.
  98. Electrical measurements of Se85-xTe15Sbx glasses Vibhav K Saraswat, K. Singh, N.S.Saxena* Indian Journal of Pure and Applied Physics 44, 782, (2006).
  99. Electrical conductivity of Se-In Chalcogenide Glasses V.K. Saraswat*, V.Kishore, Kedar Singh, N.S.saxena and T.P.Sharma Chalcogenide Letters 3, 8, 61-65, (2006).
  100. Energy band gap of Se100-XInX chalcogenide glasses Kedar Singh*, N. S. Saxena, O. N. Srivastav, D. Patidar and T. P. Sharma Chalcogenide Letters, 3, 3, 33-36, (2006).
  101. Composition dependence of the electrical conductivity of Se85- XTe15Sbx (x = 2, 4, 6, 8 and 10) chalcogenide glasses at room temperature V. K. Saraswat, Kedar Singh, N. S. Saxena*, V. Kishore, T. P. Sharma and P. K. Saraswat, Current Appl. Physics, 6, 64, (2006).
  102. Simultaneous measurements of thermal conductivity and diffusivity of Se100- XInx (x = 0, 5, 10, 15 and 20) chalcogenide glasses at room temperature Kedar Singh, N. S. Saxena* and D. Patidar Journal of Physics and Chemistry of Solids, 66, 946, (2005).
  103. Thermophysical properties on Zn -Se pellets N. S. Saxena*, R. Sharma, Kedar Singh and T. P. Sharma J. Mat. Sci. Lett. 40, 523, (2005).
  104. Temperature dependence of thermo-physical properties of Se80Te10In10 chalcogenide Glass. Kedar Singh and N. S. Saxena* Mater. Sci. Engg. A 329 (1-2), 38, (2005).
  105. Thermal properties of pine apple leaf fiber reinforced composites for different filler concentrations using transient plane source technique Ravindra Mangal, N. S. Saxena*, M. S. Sreekala, S. Thomas and Kedar Singh Mater. Sci. Engg. A 339, 281-285, (2003).
  106. Pressure dependence of thermal conductivity and thermal diffusivity of Se-Te -In chalcogenide glasses” Kedar Singh and N. S. Saxena* Indian J. Pure & Appl. Physics 41, 466, (2003).
  107. Temperature dependence of thermo-physical properties of untreated oil- palm- fiber reinforced phenol formaldehyde composites Kedar Singh, N. S. Saxena* and S. Thomas J. Scientific & Industrial research 62, 903, (2003).
  108. Kinetics of Ge-As-Se in Glass Transition Region Kedar Singh and N. S. Saxena* Bulletin of Material Science 26, 543, (2003).
  109. Structural relaxation of hybrid composite of phenol formaldehyde Kedar Singh, N. S. Saxena*, S. Thomas and M. S. Sreekala Indian J. Eng. &Material Science 10, 65, (2003).
  110. Calorimetric Studies in Se75Te25-XSnX Chalcogenide glasses N. B. Maharjan, Kedar Singh and N. S. Saxena* phys. stat. sol. 395, 1, 305-310, (2003).
  111. Temperature dependence study of thermal conductivity and thermal diffusivity of treated Oil-Palm- Fiber Reinforced phenolformaldehyde composites Kedar Singh, N. S. Saxena*, M. S. Sreekal and S. Thomas Journal of Applied Polymer Science 98, 13, 3458, (2003).
  112. Thermal properties of neutron irradiated Se80Te10In10 glass Kedar Singh and N. S. Saxena* Mater. Sci. Engg. A. 346, 287, (2003).
  113. Simultaneous measurements of thermal conductivity and thermal diffusivity of Se80Te20-XInX (X = 2, 4, 6 and 10) chalcogenide glasses at room temperature N. S. Saxena*, Mousa M. A. Imran and Kedar Singh Bulletin of Material Science 25, 241, (2002).
  114. Simultaneous measurements of thermal conductivity and diffusivity of Se85-XTe15Sbx (X =2, 4, 6, 8 and 10) chalcogenide glasses at room temperature Kedar Singh, N. B. Mahrjan and N. S. Saxena* phys. stat. sol. (a) 189, 1 197-202, (2002).
  115. CoFe2O4 nanoparticles decorated MoS2-reduced graphene oxide nanocomposite for improved microwave absorption and shielding performance  Jagdees Prasad, Ashwani Kumar Singh, Krishna Kamal Haldar, Monika Tomar, Vinay Guptab and Kedar Singh *RSC Advances 9 (2019) 21881
  116. Carrier type reversal in Pb modified Se80In20 semiconducting glassy alloys Indra Sen Ram, Jagjiwan Ram & Kedar Singh* Indian Journal of Pure & Applied Physics, 56( 2018) 440-443
  117. Optical properties of Highly Luminescent, Monodisperse, and Ultrastable CdSe/V2O5 Core/Shell Quantum Dots for In-Vitro imaging Amar Nath Yadav, Ashwani K. Singh, Prem Prakash Sharma, Pratima R. Solanki, and Kedar Singh J of Material Science: Materials in Electronics Accepted (2018)
  118. Synthesis of MoS2-reduced graphene oxide/Fe3O4nanocomposite for enhanced electromagnetic interference shielding effectiveness Jagdees Prasad, Ashwani Kumar Singh, Jyoti Shah, R K Kotnala and Kedar Singh Materials Research Express55) (2018) 120
  119. Lightweight Reduced Graphene Oxide-Fe3O4 Nanoparticle Composite for the Quest of Excellent Electromagnetic Interference Shielding Material. AK Singh , Ajit Kumar,  KK Haldar ,  Vinay Gupta ,  Kedar Singh Nanotechnology (IOP) 29(2018) 245204
  120. Experimental Validation of Ferromagnetic–Antiferromagnetic Competition in FexZn1–xSe Quantum Dots by Computational Modeling Jasleen K. BindraLavrenty Gennady GutsevJohan Van TolKedar Singh, Naresh S. Dalal and Geoffrey F. Strouse Chemistry. Materials.,  30 (6)(2018), 2093
  121. An efective approach to study the biocompatibility of Fe3O4 nanoparticles, graphene and their nanohybrid composite Ashwani Kumar Singh,   Pallavi Singh, Rajiv Kumar Verma, Suresh Yadav, Kedar Singh Amit Srivastava Applied Nanoscience,  DOI 10.1007/s13204-018-0678-z
  122. Annealing effect on thermal conductivity and microhardness of carbon nanotube containing Se80Te16Cu4 glassy composites A N Upadhyay , R S Tiwari and Kedar Singh Mater. Res. Express 5 (2018) 025203
  123. Shape and Size-Dependent Magnetic Properties of Fe3O4 Nanoparticles  Synthesized Using Piperidine Ashwani Kumar Singh, O. N. Srivastava and Kedar Singh Nanoscale Research Letters 12 (2017) 298
  124. Kinetics of phase transformation of carbon nanotube containing Se85Te10Ag5 glassy composites A. N. Upadhyay,  and Kedar Singh Materials Research Express, IOP 3 (2016) 125201
  125. Study of optical properties of vacuum evaporated carbon nanotube containing Se80Te16Cu4 thin films A. N. Upadhyay, R. S. Tiwari,  and Kedar Singh* Materials Research Express, IOP 3 (2016), 086405
  126. Optical and electrical properties of carbon nanotube- containing Se85Te10Ag5 glassy composites AN Upadhyay, RS Tiwari, Kedar Singh* Philosophical Magazine 96 (2016) 576-583
  127. Glass transition and crystallization kinetics of Se98− xCd2Inx (x= 0, 2, 6 and 10) glassy alloys Sunil Kumar and Kedar Singh * J. of Thermal Analysis and Calorimetry, 124 (2016) 675-682
  128. Microstructural and thermal investigations of carbon nanotube additive Se80Te16Cu4 glassy composites AN Upadhyay, RS Tiwari, Kedar Singh* Materials Letters 164 (2016), 449-451