• Coordination and Solid state chemistry
• Nanomaterials

1. S. Sivagami, K. Kalpanadevi^*, “One Pot Synthesis, characterization, morphology and optical profilometry properties of La-doped and La- Ag-doped cobalt oxide nanoparticles”, Materials Technology-High performance Materials, 39(1):2384804, 2024.

2. S. Sivagami, K. Kalpanadevi^*, “Photocatalytic study using La-Ag and Ni-Ag doped cobalt oxide nanoparticles as photocatalyst”, Journal of Technology, 14(7), 2024.

3. M. Hemalatha, S. Sivagami, K. Kalpanadevi^{* “}Facile synthesis of ultrafine CeO₂ nanoparticles by the thermal treatment of [Ce(DNPH)₂(HSA)₂]”, Journal of University of Shanghai for Science and Technology, 26(2), 2024.

4. S. Sivagami, K. Kalpanadevi, "Evaluation of structural, magnetic and optical properties of cobalt oxide, Ag-doped cobalt oxide and Ag,Ni-doped cobalt oxide nanomaterials", High Technology Letters, 29(3), 11-23, 2023.

5. Nandana G Sasidharan, Athira M, Kalpanadevi K, "Effect of doping Ag and Ni on the structure of zinc oxide and investigation of the
photoluminescence activity of Ag, Ni-doped zinc oxide nanoparticles", High Technology Letters, 29(6), 18-32, 2023.

6. Athira M, Nandana G Sasidharan, K. Kalpanadevi, "Evaluation of the structure and properties of Copper oxide and Ag-doped copper oxide nanoparticles through a Cost-Effective Thermal Decomposition Method", Journal of Xidian University, 17(5), 778-792, 2023.

7. S. Jothimani, K. Kalpanadevi, Emergence Of Synthetic Strategies Of Mixed Ferrite Nano Materials And Their Applications In The Last Decade", International Journal of Research and Analytical Reviews, Volume 9, Issue 3, 633-638, 2022.

8. K. Kalpanadevi and S. Sivagami, “Synthesis, spectral characterization and thermal analysis of Co (II) complex with 5-aminosalicylic acid and hydrazine as ligands”, International Research Journal of Modernization in Engineering Technology and Science, 3(5), 2958-2964, 2021.

9. K. Kalpanadevi and R. Manimekalai, “Comparative studies on the magnetic and gas sensing properties of nanostructured NiFe₂O₄ and Ni_0.8Zn_0.2Fe₂O₄”, Research Journal of Chemistry and Environment, 23 (4), 17-20, 2019.

10. K. Kalpanadevi, C.R. Sinduja and R. Manimekalai, “Synthesis and structural characterization of CdFe₂O₄ nanostructures”, International Journal of Nanoscience, 16 (4), 175002, 2017.

11. K. Kalpanadevi, R. Manimekalai, Structural Investigations of NiFe₂O₄ synthesised by the pyrolysis of Single Source Precursor, Journal of Modern Chemistry & Chemical Technology,  7 (3), 1-5,  2016.

12. K. Kalpanadevi, C.R. Sinduja and R. Manimekalai, “Synthesis and characterisation of Ni_0.25Co_0.75Fe₂O₄ nanostructures”, Bulletin of the Chemical Society of Ethiopia, 30(1), 79-85, 2016.

13. C. R. Sinduja, K. Kalpanadevi and R. Manimekalai, “Preparation and characterization of Co_0.8Zn_0.2Fe₂(PhAc)₃(N₂H₄)₃: A new precursor to Co_0.8Zn_0.2Fe₂O₄  nanoparticles”, Materials science, 22 (1), 3-6, 2016.

14. K. Kalpanadevi, C.R. Sinduja and R. Manimekalai, “Nickel nanostructures prepared by a simple thermal decomposition route”, Communications in inorganic synthesis, 3(1), 2015.

15. K. Kalpanadevi and R. Manimekalai, “Structural and Magnetic Property Studies of Nanocrystalline Co_0.8Zn_0.2Fe₂O₄”, Journal of Nanoscience, Nanoengineering & Applications, 5(3), 67-73, 2015.

16. K. Kalpanadevi, C.R. Sinduja and R. Manimekalai, “Nanostructured Ni_0.8Zn_0.2Fe₂O₄ obtained by a simple thermal decomposition route”, International Journal of Chemical and Pharmaceutical Review and Research, 2(2), 14-18, 2015.

17. Sinduja Rangansamy, Kalpanadevi Kalimuthu and Manimekalai Rakkiyasamy, “Preparation and Characterization of Mn_0.5Zn_0.5Fe₂(PhAc)₃(N₂H₄)₂: A New Precursor to Mn_0.5Zn_0.5Fe₂O₄ Nanoparticles”, Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry, 45, 482-486, 2015.

18. Manimekalai, R, K. Kalpanadevi, N. AnjuthaPrabha and O. Raina, “Synthesis and characterization of some hydrazine derivatives with α, β unsaturated acids”, Kongunadu Research Journal,2(2), 16-22, 2015.

19. K. Kalpanadevi, C. R. Sinduja, and R. Manimekalai, “Characterisation of nanostructured Co₃O₄ synthesisedby the thermal decomposition of an inorganic precursor”, Australian journal of chemistry, 67, 1671-1674, 2014.

20. Kalpanadevi Kalimuthu, Sinduja C. Rangasamy and Manimekalai Rakkiyasamy, “Synthesis and Structural Studies of Nanocrystalline Cd_0.3Zn_0.7Fe₂O₄”, South African  journal of chemistry, 67, 91-93, 2014.

21. K. Kalpanadevi, C. R. Sinduja, and R. Manimekalai, “A facile thermal decomposition route to synthesise CoFe₂O₄ nanostructures”, Material science-Poland, 32(1), 34-38, 2014.

22. C. R. Sinduja, K. Kalpanadevi and R. Manimekalai, “Characterization of Ni nanoparticles synthesised by thermal decomposition of Ni(2,4 di-ClPhAc)₃(N₂H₄)₂.1.5H₂O”, Asian journal of chemistry, 26(7), 2009-2011, 2014.

30. K. Kalpanadevi, C. R. Sinduja and R. Manimekalai, “Characterization of ZnFe₂O₄ nanoparticles obtained by the thermal decomposition of ZnFe₂(cin)₃(N₂H₄)₃”, ActaChimicaSlovenica, 60, 896-900, 2013.

24. K. Kalpanadevi,C. R. Sinduja, and R. Manimekalai, “Characterisation of Zinc Oxide and Cadmium Oxide Nanostructures Obtained from the Low Temperature Thermal Decomposition of Inorganic Precursors”, ISRN Inorganic chemistry, DOI 10.1155/2013/823040, 2013.

25. C.R. Sinduja, K.Kalpanadevi, R.Manimekalai, “Characterization of Nanostructured Cobalt Oxide Particles Synthesized By Thermal Treatment”, Global research analysis, 2(7), 11-13, 2013.

26. Manimekalai Rakkiyasamy, Kalpanadevi Kalimuthu and Sinduja Rangasamy, “Synthesis and characterization of cobaltite spinels using infrared, thermogravimetric analyses and x-ray crystallography”, Orbital- the E -journal of Chemistry, 5(1), 2013.

27. Manimekalai Rakkiyasamy, Kalpanadevi Kalimuthu, and Sinduja Rangasamy, “Coordination aspects of newly synthesised complexes of some divalent transition metals with 2,4dichlorophenoxy acetate and hydrazine”, Chemical science Transactions, DOI:10.7598/cst2013.406, 2013.

28. Manimekalai Rakkiyasamy, Kalpanadevi Kalimuthu and Sinduja Rangasamy, “Preparation and characterization of NiCo₂(PhAc)₂(N₂H₄)₂ - a precursor for cobaltite nanoparticles”, Research journal of chemical sciences, 3(3), 1-4, 2013.

29. Sinduja C.R, Kalpanadevi K, Manimekalai R, “Preparation and characterization of Ni_0.8Mn_0.2Fe₂O₄ nanoparticles synthesized by thermal decomposition of Ni_0.8Mn_0.2Fe₂(PhAc)₃(N₂H₄)₅”,  International journal of scientific research, 2(7), 64-66, 2013.

30. Manimekalai Rakkiyasamy, Kalpanadevi Kalimuthu, Sinduja Rangasamy, “Synthesis and characterization of nickel cobalt cinnamatehydrazinate – a precursor for cobaltite nanoparticles”, Scientific reviews and Chemical communications, 2(4), 597-601, 2012. 

31. Manimekalai Rakkiyasamy, Sinduja Rangasamy and Kalpanadevi Kalimuthu, “Preparation, analytical, IR  spectral and thermal studies of some new hydrazinium carboxylates”, International Journal of Inorganic Chemistry, 1-5, DOI:10.1155/2012/624374, 2012.

32.Manimekalai Rakkiyasamy, Kalpanadevi Kalimuthu and Sinduja Rangasamy, “Heterobimetallic complexes of transition metals – synthesis and characterization”, Journal of Chemical, Biological and physical sciences, 3(1), 16-19, 2012.

33. Manimekalai Rakkiyasamy, Sinduja Rangasamy and Kalpanadevi Kalimuthu, “Some new bis- and tris-hydrazine transition metal aromatic carboxylates- preparation and characterization”, Scientific reviews and Chemical communications, 2(4), 591 -596, 2012.

34. R. Manimekalai, C. R.  Sinduja and K. Kalpanadevi, “Synthesis, characterization, Infrared studies, and thermal analysis of bimetal carboxylates and its decomposition product Co₂NiO₄”_, Journal of chemical and pharmaceutical research, 4(9), 4198-4200, 2012.