@bubhopal.ac.in
Director, University Institute of Technology Barkatullah University, Bhopal
Barkatullah University, Bhopal
Ph. D.
• Function oxide nanomaterials.
• Multiferroic materials
• CMR Materials.
• Superconducting Materials.
• Complex Molecular Crystals.
• Orientationally Disordered Materials.
• Thermoelectric Materials
• Ionic Crystals
• High Pressure Structural Phase Transition in Solids.
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Rayees Ahmad Parry, Kumud Dubey, Anchit Modi, and N.K. Gaur
Elsevier BV
Shubha Dubey, Jisha A. Abraham, Kumud Dubey, Vineet Sahu, Anchit Modi, G. Pagare, and N.K. Gaur
Elsevier BV
Shubha Dubey, Kumud Dubey, Vineet Sahu, Anchit Modi, Gitanjali Pagare, Fozia Z. Haque, and N. K. Gaur
Springer Science and Business Media LLC
Kumud Dubey, Anchit Modi, Devendra K. Pandey, R.K. Sharma, G.S. Okram, and N.K. Gaur
Elsevier BV
Kumud Dubey, Shubha Dubey, Anchit Modi, R. K. Sharma, Sujay Chakravarty, C. Parvathiraja, and N. K. Gaur
Springer Science and Business Media LLC
Gitanjali Pagare, Shubha Dubey, and N. K. Gaur
AIP Publishing
Shubha Dubey, Kumud Dubey, Vineet Sahu, Raees A. Parry, Anchit Modi, Parul Jain, Gitanjali Pagare, Fozia Z. Haque Khan, and Neeraj K. Gaur
AIP Publishing
Rajesh K. Thakur, Rasna Thakur, Parul Jain, and N. K. Gaur
AIP Publishing
Kumud Dubey, Shubha Dubey, Vineet Sahu, Anchit Modi, Jyoti Bamne, Fozia Z. Haque, and N.K. Gaur
Elsevier BV
Devendra K. Pandey, Anchit Modi, and Neeraj K. Gaur
Elsevier BV
Vanshree Parey, B. Moses Abraham, Neeraj K. Gaur, and Ranjit Thapa
American Chemical Society (ACS)
Kumud Dubey, Shubha Dubey, Vineet Sahu, Rayees Ahmed Parry, Anchit Modi, and N. K. Gaur
Springer Science and Business Media LLC
Anchit Modi, Masroor Ahmad Bhat, Rayees Ahmad Parry, Chanderbhan Chotia, Parul Jain, G. S. Okram, and N. K. Gaur
Springer Science and Business Media LLC
Kumud Dubey, Shubha Dubey, Vineet Sahu, Rayees A. Parry, Anchit Modi, Fozia Z. Haque Khan, and N.K. Gaur
Elsevier BV
Shubha Dubey, Kumud Dubey, Vineet Sahu, Anchit Modi, Raees A. Parry, Gitanjali Pagare, and N.K. Gaur
Elsevier BV
Vineet Sahu, Shubha Dubey, Kumud Dubey, Anchit Modi, Rayees A. Parry, and N.K. Gaur
Elsevier BV
Anchit Modi, Devendra K. Pandey, Shovit Bhattacharya, Sudip Mukherjee, G. S. Okram, and N. K. Gaur
Springer Science and Business Media LLC
Rasna Thakur, Rajesh K. Thakur, and N. K. Gaur
AIP Publishing
AmreenBano and N. K. Gaur
AIP Publishing
Aarti Shukla, N.K. Gaur, and Prasenjit Ghosh
Elsevier BV
Anchit Modi, Masroor Ahmad Bhat, Devendra K. Pandey, and N.K. Gaur
Elsevier BV
Aarti Shukla and N.K. Gaur
Elsevier BV
Aarti Shukla and N.K. Gaur
Elsevier BV
Devendra K. Pandey, Anchit Modi, and Neeraj K. Gaur
Springer Science and Business Media LLC
Bharat Singh, Naresh Kumar, Vishal Singh, Ravender Tickoo, N. K. Gaur, and Ajay Singh
Informa UK Limited
Abstract Structural and magnetic behavior of a series of new cobaltite Y1-xYbxBaCo4O7 (0 ≤ x ≤ 0.5), prepared using the conventional solid state reaction method have been investigated. Increasing Yb content leads to the increase in magnitude of magnetic moment and decreases the ferromagnetic transition (Tc) values. It is found that the predominant antiferromagnetic character of exchange interactions between cobalt ions, a ferromagnetic component, seemed to be strong enough to be detected still at room temperature. Our findings show that these materials exhibit ferromagnetic like transition at about Tc = 91 K, 80 K, 67 K, 55 K, 51 K and 45 K for composition x = 0.0, 0.1, 0.2, 0.3, 0.4 and 0.5, respectively. We found that these materials exhibit spin-glass like state which dominates at low temperature.