@dsclatur.org
Assistant Professor and Physics
Dayanand Science College, Latur
M. Sc Ph. D
Condensed Matter Physics, Materials Science
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
N.D. Raskar, D.V. Dake, V.A. Mane, R.B. Sonpir, M. Vasundhara, K. Asokan, U. Deshpande, R. Venkatesh, V.D. Mote, and B.N. Dole
Elsevier BV
N.D. Raskar, D.V. Dake, V.A. Mane, R.B. Sonpir, H.A. Khawal, V.D. Mote, M. Vasundhara, K. Asokan, K.P. Gattu, and B.N. Dole
Elsevier BV
S. L. Bhise, L. H. Kathwate, G. Umadevi, K. G. Krishna, V. D. Mote, and B. N. Dole
Springer Science and Business Media LLC
S. D. Lokhande, M. B. Awale, G. Umadevi, and V. D. Mote
Springer Science and Business Media LLC
Lahu H. Kathwate, Sushant B. Patil, Yash S. Mane, Shivaji B. Sadale, and Vishwanath D. Mote
Elsevier BV
S.D. Lokhande, M.B. Awale, G. Umadevi, and V.D. Mote
Elsevier BV
S.D. Lokhande, H.A. Varudkar, M.B. Awale, L.H. Kathwate, J.S. Dargad, and V.D. Mote
Elsevier BV
Mangesh Awale, S. D. Lokhande, S. S. Jadhav, S. B. Kadam, V. D. Mote, and A. B. Kadam
Springer Science and Business Media LLC
Vishwanath D. Mote, S.D. Lokhande, L.H. Kathwate, M.B. Awale, and Yuvraj Sudake
Elsevier BV
L. H. Kathwate and V. D. Mote
Springer Science and Business Media LLC
S. D. Lokhande, M. B. Awale, and V. D. Mote
Springer Science and Business Media LLC
H. A. Varudkar, L. H. Kathwate, M. B. Awale, S. D. Lokhande, G. Umadevi, J. S. Dargad, and Vishwanath D. Mote
Springer Science and Business Media LLC
S. P. Kamble and V. D. Mote
Springer Science and Business Media LLC
Vishwanath D. Mote and B. N. Dole
Springer Science and Business Media LLC
V. V. Jadhavar, V. D. Mote, and B. S. Munde
Springer Science and Business Media LLC
L.H. Kathwate, G. Umadevi, P.M. Kulal, P. Nagaraju, D.P. Dubal, A.K. Nanjundan, and V.D. Mote
Elsevier BV
H. A. Varudkar, G. Umadevi, P. Nagaraju, J. S. Dargad, and V. D. Mote
Springer Science and Business Media LLC
H. A. Varudkar, V. D. Mote, G. Umadevi, Y. Purushotham, and J. S. Dargad
Informa UK Limited
Abstract Zn1– x Co x O nanoparticles have been prepared by coprecipitation method. X-ray diffraction study confirms the polycrstalline nature with hexagonal wurtzite ZnO structure of the Zn1– x Co x O nanoparticles. The W–H analysis results confirms the mean crystallite size of the Co-doped samples was increased from 62 to 72 nm. All samples have nanocrystalline particles were investigated by field emission scanning electron microscopy. Optical absorption studies showed a red shift absorption spectra due to the incorporation of Co atoms in ZnO lattice. Dielectric constant and dielectric loss were decreasing with increasing Co content. Magnetic hysteresis loops of prepared nanoparticles exhibit paramagnetic behavior at room temperature.
S.P. Kamble and V.D. Mote
Elsevier BV
Umadevi Godavarti, V.D. Mote, M.V. Ramana Reddy, P. Nagaraju, Y. Vijaya Kumar, Kalyana Tulasi Dasari, and Madhava P. Dasari
Elsevier BV
H. A. Khawal, V. D. Mote, K. Asokan, and Babasaheb N. Dole
Springer Science and Business Media LLC
Madhava Dasari, Umadevi Godavarti, and Vishwanath Mote
National Library of Serbia
Weak ferromagnetic behaviour was obtained in a systematic way at room temperature by doping of ZnO with nickel (Zn1-xNixO, where x = 0.00, 0.05, 0.15 and 0.20). The obtained results were correlated with conductivity and impedance studies. Diamagnetic to ferromagnetic change was observed with increased concentration of nickel. X-ray diffraction analysis confirmed wurtzite ZnO structure of prepared nanopowders while microstrain was increased with nickel concentration. Incorporation of nickel in ZnO structure was confirmed using EDAX analysis, while FTIR spectroscopy provided further information on functional groups. Transmission electron microscopy images showed that the particle sizes are in the range of 12-20 nm, and scanning electron microscopy analyses that grain size decreases with increase in nickel concentration. Photo luminescence studies confirmed the presence of VO and Zni defects in the prepared samples. It was concluded that the defect induced strain, grain boundaries and lower particle sizes are the reasons for weak ferromagnetic behaviour of the investigated samples.
Umadevi Godavarti, V.D. Mote, and Madhavaprasad Dasari
Informa UK Limited
V.D. Mote, Y. Purushotham, and B.N. Dole
Elsevier BV
Umadevi Godavarti, Vishwanath Mote, and Madhava P Dasari
Elsevier BV