Dr. Madhuri Wuppulluri
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Dr. Madhuri Wuppulluri

Assistant Professor
VIT University, India

Highest Degree
Ph.D. in Physics from Sri Krishnadevaraya University, India

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Area of Interest:

Physics
100%
Magneto-calorics
62%
Electro-ceramics
90%
Multi-ferroics
75%
Polymer Science
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Prathap,S. and W. Madhuri, 2017. Multiferroic properties of microwave sintered PbFe12−xO19−δ. J. Magn. Magn. Mater., 430: 114-120.
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  2. Pavithra, C., S.R. Kiran and W. Madhuri, 2017. Impedance analysis of microwave processed lead nickel titanate. Mech. Mater. Sci. Engg., .
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  3. Nivetha, K., W. Madhuri and S. Kalainathan, 2017. Synthesis, growth, crystal structure and characterization of new stilbazolium derivative single crystal: (E)-4-(3-ethoxy-2-hydroxystyryl)-1-methyl pyridinium iodide (3ETSI). J. Mater. Sci. Mater. Electr., 28: 8937-8949.
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  4. Naidu, K.C.B., R. Kiran and W. Madhuri, 2017. Microwave processed nimgzn ferrites for electromagnetic interference shielding applications. IEEE Trans. Magn., 53: 2900207-2900207.
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  5. Naidu, K.C.B. and W. Madhuri, 2017. Microwave processed bulk and nano nimg ferrites: a comparative study on x-band electromagnetic interference shielding properties. Mater. Chem. Phys., 187: 164-176.
  6. Naidu, K.C.B. and W. Madhuri, 2017. Hydrothermal synthesis of NiFe2O4 nano-particles: structural, morphological, optical, electrical and magnetic properties. Bull. Mater. Sci., 40: 417-425.
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  7. Madhuri. W, S.R. Kiran, M.P. Reddy and N.R. Reddy, 2017. DC conductivity and Seebeck coefficient of nonstoichiometric MgCuZn ferrites. Mater.Sci. Poland, 10.1515/msp-2017-0003.
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  8. Chandra, K., B. Naidu and W. Madhuri, 2017. Determination of activation energies from complex impedance parameters of microwave sintered nimgzn ferrites. Mech. Mater. Sci. Eng., 10.2412/mmse.4.28.99.
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  9. Chandra Babu Naidu, K., S. RoopasKiran and W. Madhuri, 2017. Investigations on transport, impedance and electromagnetic interference shielding properties of microwave processed NiMg ferrites. Mater. Res. Bull., 89: 125-138.
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  10. Prathap, S., K. Chandra Babu Naidu and W. Madhuri, 2016. Ferroelectric behaviour of microwave sintered iron deficient PbFe12O19-δ. Conf. Proc., 10.1063/1.4947624.
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  11. Madhuri, W., M.P. Reddy,. N.R. Reddy and K.V. Siva, 2016. Effect of glass on magnetic properties of microwave-processed MgCuZnnano ferrites. J. Aust. Ceram. Soc., 16: 67-73.
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  12. Gurusiddappa, J., W. Madhuri, R.P. Suvarna and K.P. Suvarna, 2016. Studies on the morphology and conductivity of PEO/LiClO. Mater. Today Proc., 3: 1451-1459.
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  13. Gurusiddappa, J., W. Madhuri, R.P. Suvarna and K.P. Dasan, 2016. Conductivity and dielectric behavior of polyethylene oxide-lithium perchlorate solid polymer electrolyte films. Ind. J. Adv. Chem. Sci., 4: 14-19.
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  14. Deviprasadh, P.S., W. Madhuri, A.S. Verma and B.K. Sarkar, 2016. Photoacoustic spectroscopic study of optical properties of cu2gete3cu2gete3 in temperature range from 80 k to 300 k. Int. J. Thermophys., .
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  15. Chandra Babu Naidu, K. and W. Madhuri, 2016. Microwave processed NiMg ferrite: Studies on structural and magnetic properties. J. Magn. Magn. Mater., 420: 109-116.
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  16. Chandra Babu Naidu, K. and W. Madhuri, 2016. Microwave hydrothermal synthesis: Structural and dielectric properties of nano MgFe2O4 ceramics. Mater. Today Proc. 3: 3810-3813.
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  17. Chandra Babu Naidu, K. and W. Madhuri, 2016. Microwave assisted solid state reaction method: Investigations on electrical and magnetic properties NiMgZn ferrites. Mate. Chem. Phys., 181: 432-443.
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  18. Chandra Babu Naidu, K. and W. Madhuri, 2016. Effect of nonmagnetic zn2+ cations on initial permeability of microwave-treated nimg ferrites. Int. J. Appl. Ceram. Technol., 13: 1090-1095.
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  19. Vishwas, B., W. Madhuri, N.M. Rao and S. Kaleemulla, 2015. Stress insensitive multilayer chip inductor with ferrite core. Conf. Proc., 10.1063/1.4917851.
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  20. Reddy, M.P., M.V. Ramana, W. Madhuri, K. Sadhana, K.V. Siva Kumar and R.R. Reddy, 2015. Effects of sintering temperature on structural and electromagnetic properties of MgCuZn ferrite prepared by microwave sintering. Adv. Appl. Ceram., 114: 326-332.
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  21. Kumar, S., W. Madhuri and S. Kalainathan, 2015. Synthesis and characterization of microinductor made of NiCuZn nanoferrite. Mod. Phys. Lett., 29: 1-5.
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  22. Gurusiddappa, J., W. Madhuri, R.P. Suvarna and K.P. Dasan, 2015. Electrical properties of peo-based electrolytes. Int. J. Innov. Sci. Engg. Tech., 4: 11447-11454.
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  23. Devi Prasad P.S., B.K. Sarkar and W. Madhuri, 2015. Oxygen dependence on crystal structure in 123, 124 & 247 ybco system. Int. J. Eng. Trends Sci. Humanities, .
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  24. Chintaparty, R., B. Palagiri, R.R. Nagireddy, V.S.R. Immareddy and W. Madhuri, 2015. Effect of pH on structural, optical and dielectric properties of nano-zirconium oxide prepared by hydrothermal method. Mater. Lett., 161: 770-773.
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  25. Sreevalli,W., G. Ramachandran, W. Madhuri and K.I. Sathiyanarayanan, 2014. Green trends in mannich reaction. Mini Rev. Organic Chem., 11: 97-115.
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  26. Reddy, M.P., W. Madhuri, K. Sadhana, I.G. Kim and K.N. Hui et al., 2014. Microwave sintering of nickel ferrite nanoparticles processed via sol-gel method. J. Sol-Gel Sci. Technol., 70: 400-404.
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  27. Reddy, M.P., W. Madhuri, I.S.S.K. Rao, I.G. Kim and R.R. Reddy, 2014. Room temperature synthesis, structural and optical properties of CdSe nanoparticles. Int. J. Chem. Tech. Res., 6: 2048--2050.
  28. Madhuri, W., M.P. Reddy, N.R.M. Reddy and K.V.S. Kumar, 2014. Thermoelectric studies of MgCuZn ferrites. Int. J. Chem. Tech. Res., 6: 1771-1774.
  29. Reddy, M.P., I.G. Kim, D.S. Yoo, W. Madhuri and M.V. Ramana et al., 2013. Effect of La substitution on structural and magnetic properties of microwave treated Mg0.35Cu0.05Zn0.60LaxFe2−xO4 ceramics. Superlattices Microstruct., 56: 99-106.
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  30. Reddy, M.P. W. Madhuri, M.V. Ramana, I.G. Kim and D.S. Yoo et al., 2013. Possibility of nicuzn ferrites composition for stress sensor applications. J. Ceramics, 2013: 6-6.
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  31. Madhuri, W., M.P. Reddy, G. Kim, N.R.M. Reddy,K.V. Siva Kumar and V.R.K. Murthy, 2013. Transport properties of microwave sintered pure and glass added MgCuZn ferrites. Mater. Sci. Eng., 178: 843-850.
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  32. Reddy, M.P., W. Madhuri, N.R.Reddy, K.V.S. Kumar, V.R.K. Murthy and R.R. Reddy, 2012. Magnetic properties of Ni-Zn ferrites prepared by microwave sintering method. J. Electr., 28: 1-9.
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  33. Reddy, M., I. Kim, D. Yoo, W. Madhuri, N. Reddy, K. Kumar and R. Reddy, 2012. Characterization and electromagnetic studies on nizn and nicuzn ferrites prepared by microwave sintering technique. Mater.Sci. Appl., 3: 628-632.
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  34. Pasha, S.K.K., K. Chidambaram, N. Vijayan and W. Madhuri, 2012. Structural and electrical properties of nano structure lead oxide. OptoElectron.Adv.Mater., 6: 110-116.
  35. Reddy, M.P., W. Madhuri, G. Balakrishnaiah, N.R. Reddy, K.V. Siva Kumar, V.R.K. Murthy and R.R. Reddy, 2011. Microwave sintering of iron deficient NiCuZn ferrites for multilayer chip Inductors. Curr. Applied Phys., 11: 191-198.
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  36. Reddy, M.P., M. VenkataRamana, N. Rama M. Reddy, K.V. Siva Kumar, R.R.K. Reddy and W. Madhuri. 2011. Structural, electrical and magnetic characterization of NiCuZn spinel ferrites. Modern Phys. Lett., 25: 211-222.
  37. Reddy, M.P., W. Madhuri, N.R. Reddy, K.V. Siva Kumar, V.R.K. Murthy and R.R. Reddy, 2010. Influence of copper substitution on magnetic and electrical properties of MgCuZn ferrite prepared by microwave sintering method. Mater. Sci. Eng., 30: 1094-1099.
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  38. Reddy, M.P., W. Madhuri, N R. Reddy, K.V. Siva Kumar, V.R.K. Murthy and R.R. Reddy, 2010. Microwave sintering of high-permeability MgCuZn ferrite at low sintering temperatures suitable for microinductor applications. Phys. Scripta, .
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  39. Reddy, M.P., W. Madhuri, M.V. Ramana, N.R. Reddy and K.V. Siva Kumar et al., 2010. Effect of sintering temperature on structural and magnetic properties of NiCuZn and MgCuZn ferrites. J. Magn. Magn. Mater., 322: 2819-2823.
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  40. Reddy, M.P., G. Balakrishnaiah, W. Madhuri, M.V.Ramana and N.R Reddy et al., 2010. Structural, magnetic and electrical properties of NiCuZn ferrites prepared by microwave sintering method suitable for MLCI applications. J. Phys. Chem. Solids, 71: 1373-1380.
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  41. Madhuri, W., M P. Reddy, N.R. Reddy, K.V. Siva Kumar and V.R.K. Murthy, 2009. Comparison of initial permeability of MgCuZn ferrites sintered by both conventional and microwave methods. J. Phys. D: Appl. Phys., Vol, 42 .
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