Publications

Dr. M.Navaneethan

1. Chandrapal, R. Roshan, G. Bakiyaraj, S. Bharathkumar, V. Ganesh, J. Archana, and Navaneethan. “Novel combustion technique synthesis of ZnCo₂O₄ nanobeads/g-C₃N₄ nanosheet heterojunction photocatalyst in-effect of enhancing photocatalytic degradation for environmental remediation.” Surfaces and Interfaces (2023): 103269. [IF-6.137]
2. John, G., T. Susikumar, Vijaya Gopalan Sree, Navaneethan, P. Justin Jesuraj. “Anchoring SnS nanoflakes on CuCo₂O₄ acicular sprouts for overall water splitting.” International Journal of Hydrogen Energy (2023). [IF-7.2]
3. Bharathi, K., K. Sathiyamoorthy, G. Bakiyaraj, J. Archana, and Navaneethan. “2D V₂O₅ nanoflakes on 2D p-gC₃N₄ nanosheets of heterostructure photocatalysts with the enhanced photocatalytic activity of organic pollutants under direct sunlight.” Surfaces and Interfaces (2023): 103219. [IF-6.137]
4. Manimozhi, T., S. Kavirajan, and Navaneethan* “Synergistic effect of energy filtering, modulation doping and boundary scattering of multiphase Cu-Sb-Bi-S system for enhanced thermoelectric performance.” Surfaces and Interfaces (2023): 103224 [IF-6.137]
5. Vinodhini, J., V. Shalini, S. Harish, H. Ikeda, J. Archana, and Navaneethan*. “Solvent-assisted synthesis of Ag₂Se and Ag₂S nanoparticles on carbon fabric for enhanced thermoelectric performance.” Journal of Colloid and Interface Science (2023). [IF-9.9]
6. Santhi, K., S. Harish, Navaneethan, and S. Ponnusamy. “Enhanced Photocatalytic activities of TiO₂ through Metal chalcogenides-based Nanocomposites (ZnS/TiO₂) for Methylene Blue degradation.” Surfaces and Interfaces (2023): 103205. [IF-6.2]
7. Chandrapal, R. Roshan, J. Raveena, G. Bakiyaraj, S. Bharathkumar, V. Ganesh, J. Archana, and Navaneethan. “Enhancing the photocatalytic performance of g-C₃N₄ (GCN) via La–ZnO nanocomposite (Z-scheme mechanism) against toxic pharmaceutical pollutant.” Journal of Materials Research (2023): 1-17. [IF-2.7]
8. Dona, Joseph, S. Harish, K. Hara, and Navaneethan. “Metal-assisted growth of MoS₂ nanosheets on carbon fabric with enhanced electrical conductivity for self-powered wearable thermoelectric application.” Journal of Materials Science: Materials in Electronics 34, no. 20 (2023): 1538. [IF-4.5]
9. Gopalakrishnan, S., V. Saranya, S. Harish, E. Senthil Kumar, and Navaneethan*. “Heterogeneous bimetallic oxysulfide nanostructure (Ni-Co) as hybrid bifunctional electrocatalyst for sustainable overall alkaline simulated seawater splitting.” Journal of Alloys and Compounds (2023): 171124. [IF-6.2]
10. Vijay, V., S. Harish, J. Archana, Navaneethan. “Ultra-high power factor of p-type Bi₂Se₃ for room-temperature thermoelectric applications.” Chemical Communications (2023) [IF – 4.9] – Q1
11. KP, Mohamed Jibri, Abinaya R, Navaneethan M*, Harish S. “Elucidation of Superior Thermoelectric Transport Properties via Tuning Hopping Potential Barrier, Mass, and Strain Field Fluctuations in LaCo ₉₅A_{0. 05}O₃ (A= Y, In).” The Journal of Physical Chemistry C (2023) [IF – 3.7] – Q1
12. Shalini, R.K. Roghan, N.S. Santhosh, J. Archana, H. Ikeda, S. Harish, M. Navaneethan* Solution processed polyaniline anchored graphene on conductive carbon fabric for high performance wearable thermoelectric generators. Materials Chemistry and Physics (2023) 306, 128022. [IF – 4.6] – Q1
13. Vinoth, V. Vijay, R. Aysha Parveen, S. Harish, J. Archana M. Navaneethan “Silver Nanoparticle (AgNP) loaded Bi₂Se₃ topological insulator pn heterojunction photodiode for near infra-red (NIR) photodetector.” Nano Futures (2023) 7, 025004 [IF – 2.1] – Q2
14. Arthi, G., Rajiv Selvam, Y. Hayakawa, J. Archana, Navaneethan, S. Ponnusamy,  C. Muthamizhchelvan, and Sankar Ganesh Ramaraj. “Cost-effective dye-sensitized solar cells based on rutile-phase three-dimensional TiO₂ hierarchical nanostructures.” Microscopy research and technique (2023), 1-10, [IF – 2.5] – Q1
15. Athithya, S., S. Harish, H. Ikeda, Navaneethan, and J. Archana. “Controlled synthesis of monodispersed ZnO nanospindle decorated TiO₂ mesospheres for enhanced charge transport in dye-sensitized solar cells.” CrystEngComm (2023) 25, 3198 – 3209 – [IF – 3.1] – Q1
16. Santhosh, R., S. Harish, R. Abinaya, S. Ponnusamy, H. Ikeda, J. Archana, Navaneethan. “Enhanced thermoelectric performance of hot-pressed n-type Ag₂Se nanostructures by controlling the intrinsic lattice defects.” CrystEngComm (2023) 25, 3317-3327 – [IF – 3.1] – Q1
17. Athithya, S., KP Mohamed Jibri, S. Harish, K. Hayakawa, Y. Kubota, H. Ikeda, Y. Hayakawa, Y. Inatomi, Navaneethan, and J. Archana. “Polarity switching via defect engineering in Cu doped SnSe_0.75S_0.25 solid solutions for mid-temperature thermoelectric applications.” Materials Research Express 10, no. 5 (2023): 056507. [IF – 2.3] – Q2
18. Raveena, J., G. Bakiyaraj, J. Archana, Navaneethan. “Investigation of the photovoltaic efficiency of dye-sensitized solar cells using transition metal (Cu, Mo, and Ni)-doped 2D SnS₂ nanoflakes counter-electrodes.” Journal of Materials Science: Materials in Electronics 34, no. 14 (2023): 1164. [IF – 2.8] – Q2
19. Sundari, R. Shanmuka, V. Vijay, V. Shalini, S. Harish, M. Shimomura, J. Archana, S. Ponnusamy, Navaneethan* “Effective decoupling of grain boundaries and secondary phase interfaces for enhanced thermoelectric performance of Cu_1.8S/WS₂ nanocomposites.” Journal of Alloys and Compounds (2023): 170796. [IF – 6.2] – Q1
20. Govind, A., P. Bharathi, M. Krishna Mohan, J. Archana, S. Harish, M. Navaneethan*. “Highly sensitive near room temperature operable NO₂ gas-sensor for enhanced selectivity via nanoporous CuO@ZnO heterostructures.” Journal of Environmental Chemical Engineering (2023): 110056. [IF – 7.7] – Q1
21. Shalini, V., S. Harish, H. Ikeda, Y. Hayakawa, J. Archana, Navaneethan*. “Investigating the effect of defect states and to enhance the electrical conductivity of  p-type Vanadium-doped MoS2 for wearable thermoelectric application.” Journal of Alloys and Compounds (2023): 170317. [IF – 6.2] – Q1
22. Vibavakumar, S., K. D. Nisha, V. S. Manikandan, J. Archana, Navaneethan, and S. Harish. “Enhanced photo conversion efficiency of Nb₂O₅/TiO₂ bilayer photoanode for Dye-Sensitized Solar Cells.” Optical Materials 140 (2023): 113828. [IF – 3.9] – Q1
23. KP, Mohamed Jibri, J. Archana, Navaneethan*, S. Harish. “Small polaron hopping conduction mechanism and enhanced thermoelectric power factor in Perovskite LaCoO₃ ceramic.” Physical Chemistry Chemical Physics(2023), 25, 12914-12922 [IF – 3.3] – Q1
24. Syamsai, Ravuri, Andrews Nirmala Grace, Ganesan Anandha Babu, Kamala Bharathi Karuppanan, Senthil Kumar Eswaran, Navaneethan. “Titanium–Tantalum Double-Ordered MXene Nanosheets as Supercapacitor Electrodes.” ACS Applied Nano Materials(2023). 5224–5232. [IF – 5.9] – Q1
25. Aysha Parveen, E. Vinoth, S. Harish, K. Hara, J. Archana, S. Ponnusamy, M. Navaneethan*. “Oxygen vacancies mediated α-MoO₃ Nano-ribbons by Cu doping for highly sensitive, selective and rapid detection of hazardous NO₂ for gas sensor application.” Sensors and Actuators B: Chemical (2023): 133810. [IF – 8.4] – Q1
26. Gokulnaath, M., V. S. Manikandan, S. Muthu Mariappan, S. Harish, J. Archana, Navaneethan*. “Tailoring the band edge potential in Y³⁺ doped BaSnO₃ photoanode in dye sensitized solar cell applications.” Journal of Physics and Chemistry of Solids (2023): 111367. [IF – 4.0] – Q2
27. Subash, Sruthy, S. Udhayakumar, Lakshmanan Kumaresan, L. N. Patro, V. Kumaran, E. Senthil Kumar, Navaneethan, Do Kyung Kim, K. Kamala Bharathi. “Ordered LiFe₅O₈ thin films prepared by pulsed laser deposition as an anode material for all-solid thin film batteries.” Electrochimica Acta454 (2023): 142318. [IF – 6.6] – Q1
28. Vibavakumar, S., K. D. Nisha, S. Harish, J. Archana, Navaneethan. “Synergistic effect of MoO₃/MoS₂ in improving the electrocatalytic performance of counter electrode for enhanced efficiency in dye-sensitized solar cells.” Materials Science in Semiconductor Processing 161 (2023): 107431. [IF – 4.1] – Q1
29. Gopalakrishnan, Ranjan Sahoo Mihir, Avijeet Ray, Nirpendra Singh, Harish Santhanakrishnan, Senthil Kumar Eswaran, M. Navaneethan. “NiCo₂S₄ cocatalyst supported Si nanowires heterostructure for improved solar-driven water reduction: experimental and theoretical insights.” Sustainable Energy & Fuels (2023), 7, 1687-1697 [IF – 5.6] – Q1
30. Prabakaran, S., K. D. Nisha, S. Harish, Y. Hayakawa, Navaneethan. “Boosting the electrical and charge transfer properties of TiO₂ by the effect of Mo doped and rGO nanocomposite.” Journal of Alloys and Compounds (2023): 169186. [IF – 6.2] – Q1
31. Arthi, G., J. Archana, Navaneethan, S. Ponnusamy, Y. Hayakawa, C. Muthamizhchelvan, Sankar Ganesh Ramaraj. “Solvothermal synthesis of 3D hierarchical rutile TiO₂ nanostructures for efficient dye-sensitized solar cells.” Materials Letters 337 (2023): 133961. [IF – 3.0] – Q1
32. Gowdhaman, A., S. Arun Kumar, D. Elumalai, C. Balaji, M. Sabarinathan, R. Ramesh, Navaneethan. “Ni-MOF derived NiO/Ni/r-GO nanocomposite as a novel electrode material for high-performance asymmetric supercapacitor.” Journal of Energy Storage 61 (2023): 106769. [IF – 9.4] -Q1
33. G, S. Harish, M. Krishna Mohan, P. Bharathi, S. Kamala Kannan, J. Archana, M. Navaneethan*. Enhanced selectivity and ultra-fast detection of NO₂ gas sensor via Ag modified WO₃ nanostructures for gas sensing applications. Sensors and Actuators B: Chemical (2023): 133374. [CI -] [IF – 8.4].
34. Selestina, A., L. Sudha, V. Vijay, N. Karunagaran, and Navaneethan*. “Enhanced thermoelectric power factor of Se-doped SnS nanostructures for flexible thermoelectric applications.” Journal of Materials Science: Materials in Electronics 34, no. 4 (2023): 255. [IF – 2.8] – Q2
35. Athithya, S., KP Mohamed Jibri, S. Harish, K. Hayakawa, Y. Kubota, H. Ikeda, Y. Hayakawa, Navaneethan, J. Archana. “Probing an enhanced anisotropy Seebeck coefficient and low thermal conductivity in polycrystalline Al doped SnSe nanostructure.” AIP Advances 13, no. 1 (2023): 015311. [IF – 1.697] -Q3
36. Vijay, V., S. Harish, J. Archana, Navaneethan*. “Realization of an ultra-low lattice thermal conductivity in Bi₂Ag_xSe₃ nanostructures for enhanced thermoelectric performance.” Journal of Colloid and Interface Science (2023), 637, 340-353. [IF – 9.9] -Q1
37. Prakash, K., S. Harish, S. Kamalakannan, T. Logu, M. Shimomura, J. Archana, Navaneethan*. “Perspective on ultrathin layered Ni-doped MoS₂ hybrid nanostructures for the enhancement of electrochemical properties in supercapacitors.” Journal of Energy Chemistry (2023), 80, 335-349. [IF – 13.1] -Q1
38. Suganthi, K., E. Vinoth, L. Sudha, P. Bharathi, and Navaneethan* “Manganese (Mn²⁺) doped hexagonal prismatic Zinc Oxide (ZnO) nanostructures for chemiresistive NO₂ sensor.” Sensors and Actuators B: Chemical (2023): 380, 133293. [IF – 8.4] -Q1
39. Sundari, R. Shanmuka, S. Harish, V. Vijay, M. Shimomura, S. Ponnusamy, J. Archana, and Navaneethan* “Suppression of intrinsic thermal conductivity in Sr_{1− x}Gd_xTiO₃ ceramics via phonon-point defect scattering for enhanced thermoelectric application.” RSC Advances 13, no. 1 (2023): 665-673 [IF – 3.9] – Q1.
40. John, G., S. Gopalakrishnan, Abhishek Sharan, Navaneethan, J. Kulandaivel, Nirpendra Singh, and P. Justin Jesuraj. “Exploring the Heterostructure Engineering of SnS/NiCo₂O₄ for Overall Water Splitting.” Energy & Fuels (2022). [IF – 5.3] – Q1
41. Kumar, G. Jagadish, Ashika Jose, E. P. Jinu, T. T. Saravanan, E. Senthil Kumar, Navaneethan, H. Sreemoolanadhan, and K. Kamala Bharathi. “B-site disorder induced Griffiths phase evolution and high magnetocaloric effect in La_{0. 7}Sr_{0. 3}A_{0. 05}Mn_{0. 95}O₃ (A= Si, Ti).” Materials Research Bulletin (2022): 112140 [IF – 5.4]- Q1.
42. Athithya, S, S. Manikandan, S. Harish, K. Silambarasan, S. Gopalakrishnan, H. Ikeda, Navaneethan*, and J. Archana. “Plasmon Effect of Ag Nanoparticles on TiO₂/rGO Nanostructures for Enhanced Energy Harvesting and Environmental Remediation.” Nanomaterials 13, no. 1 (2022): 65. [IF – 5.3]- Q1.
43. Raveena, J., R. Roshan Chandrapal, G. Bakiyaraj, V. S. Manikandan, S. Athitya, Archana, and M. Navaneethan. “Synergetic effect of 2D/2D Co-SnS₂ with reduced graphene oxide heterostructure for Pt-free counter electrode.” Materials Today Communications (2022): 34, 105204. [IF – 3.8] –Q2
44. Shalini, V., S. Harish, H. Ikeda, Y. Hayakawa, J. Archana, and Navaneethan*. “Enhancement of thermoelectric power factor via electron energy filtering in Cu doped MoS₂ on carbon fabric for wearable thermoelectric generator applications.” Journal of Colloid and Interface Science 633 (2023): 120-131. [IF – 9.9] –Q1
45. Manikandan, V. S., S. Athithya, S. Harish, J. Archana, and Navaneethan. “Solution-processed UV–visible photodetector based on Ag enfold g-C₃N₄ nanosheets with MWCNT nanotube hybrid nanostructure.” Optical Materials 134 (2022): 113086. [IF – 3.9] –Q2
46. Bharathi, P., S. Harish, M. Shimomura, M. Krishna Mohan, J. Archana, and               Navaneethan* “Controlled growth and fabrication of edge enriched SnS₂ nanostructures for room temperature NO₂ gas sensor applications.” Materials Letters (2022): 335, 133691. [IF – 3] – Q1
47. Mathew, Nibin K., K. Rohith Vinod, G. Theertharaman, Navaneethan, S. Balakumar. “Probing the Influence of Liquid Nitrogen Assisted Chemical Reduction on the Nature of Passivation Layer, Magnetic Properties, and Cr (VI) Remediation Performance of Nanoscale Zero Valent Iron.” Journal of Environmental Chemical Engineering (2022): 11, 109096. [IF – 7.7] – Q1
48. John, Simon Sajan, R. Abinaya, S. Harish, E. Senthil Kumar, J. Archana, and Navaneethan*. “Influence of secondary phases of Sb₂O₃ and CoSb₂ on CoSb₃ skutterudite to reduce thermal conductivity.” Journal of Alloys and Compounds (2022): 936, 167801. [IF – 6.2] – Q1
49. Udhayakumar, S., G. Jagadish Kumar, E. Senthil Kumar, Navaneethan, K. Kamala Bharathi. “Electrical, electronic and magnetic property correlation via oxygen vacancy filling and scaling-law analysis in LiFe₅O₈ thin films prepared by pulsed laser deposition.” Journal of Materials Chemistry C 10, no. 40 (2022): 15051-15060. [IF – 6.4] – Q1
50. Aishwarya, K., S. Maruthasalamoorthy, J. Mani, G. Anbalagan, R. Nirmala, Navaneethan, and R. Navamathavan. “Structural formation of multifunctional NiMoO₄ nanorods for thermoelectric applications.” Physical Chemistry Chemical Physics: 24, 25620-25629 (2022) – [IF – 3.3] -Q1.
51. Patrick, D. Simon, A. Govind, P. Bharathi, M. Krishna Mohan, S. Harish, J. Archana, and Navaneethan* “One step synthesis of ZnO/g-C₃N₄ hierarchical microspherical nanocomposites and its enhanced gas sensing properties towards NO₂ gas molecules.” Applied Surface Science (2022): 609, 155337 – [IF – 6.7] -Q1.
52. Archana, C., S. Harish, R. Abinaya, J. Archana, and Navaneethan* “Flexible thermoelectric performance of interface modified MoS₂/CNT for enhanced power factor via energy filtering effect.” Sensors and Actuators A: Physical (2022): 348, 113938. [IF – 4.6] – Q1
53. Ahmad, Sajid, Pritam Sarkar, Pramod Bhatt, Shovit Bhattacharya, Navaneethan, Ranita Basu, Ranu Bhatt et al. “Improved thermoelectric performance of Ag_2–xAl_xSe through formation of AgAl phase.” Applied Physics Letters 121, no. 17 (2022): 173905. [IF – 3.971] – Q1
54. Abinaya, R., S. Harish, J. Archana, M. Shimomura, and Navaneethan*. “Decoupling trade-off thermoelectric relations and controlled out-plane lattice dynamics in few-layer MoS₂.” Applied Physics Letters 121, no. 12 (2022): 123102. [IF – 3.971]- Q1
55. Sreevidya, U., V. Shalini, S. Kavirajan, K. R. Maiyelvaganan, M. Prakash, K. Kamala Bharathi, E. Senthil Kumar, J. Archana, S. Harish, and Navaneethan* “Investigation of non-covalent interactions in Polypyrrole/Polyaniline/Carbon black ternary complex for enhanced thermoelectric properties via interfacial carrier scattering and π-π stacking.” Journal of Colloid and Interface Science (2022). [IF – 9.9] –Q1
56. Babu, Ganesan Anandha, Perumal Sakthivel, Ravuri Syamsai, Sankaiya Asaithambi, Murugesan Karuppiah, Ganesan Ravi, Navaneethan. “Pre-eminent design and performance of hybrid diatomic sulphide materials for supercapacitor applications.” International Journal of Energy Research (2022). [IF – 4.672]- Q1
57. Sathiyamoorthy, K., A. Silambarasan, S. Bharathkumar, J. Archana, Navaneethan*, and S. Harish. “Effect of Bismuth incorporation on Lanthanum Cobaltite nanostructures: enhanced optical and photocatalytic properties.” Materials Research Bulletin (2022): 112030. [IF – 5.4]- Q1
58. Babu, G. Anandha, and Navaneethan. “Superficial interface of Pd-dispersed titanium nitride electrocatalysts for hydrogen evolution reaction.”Materials Letters 325 (2022): 132843 [IF – 3.0] – Q1
59. Murali, G., S. Gopalakrishnan, Sandeep Kumar Lakhera, B.S Neppolian, S. Ponnusamy, S. Harish, and Navaneethan. “Enhanced solar light-driven hydrogen evolution of activated carbon sphere supported TiO₂ hybrid nanocomposites.” Diamond and Related Materials (2022): 109226 [IF – 4.1] – Q1
60. Harish, S., G. Murugesan, J. Archana, and Navaneethan* “Amine-functionalized ZnO hierarchical nanostructures for enhanced photocatalytic decomposition under visible light illumination.” Materials Science and Engineering: B 284 (2022): 115844. [IF – 3.6] –Q2
61. Bhatt, Pramod, S. Banerjee, M. D. Mukadam, P. Jha, Navaneethan, and S. M. Yusuf. “Enhanced hydrogen adsorption in alkali metal-based copper hexacyanoferrate Prussian blue analogue nanocubes.” Journal of Power Sources 542 (2022):231816. [IF- 9.2] [C.I-37] – Q1
62. Prakash, K., S. Harish, K. Silambarasan, T. Logu, R. Ramesh, J. Archana, and Navaneethan*. “Boosting the energy density of supercapacitors by constructing hybrid Molybdenum disulphide nanostructures as a highly durable novel electrode.” Journal of Colloid and Interface Science (2022). [IF – 9.9] –Q1
63. Govind, A., P. Bharathi, G. Mathankumar, M. Krishna Mohan, J. Archana, S. Harish, and Navaneethan*. “Enhanced charge transfer in 2D carbon-rich g-C₃N₄ nanosheets for highly sensitive NO₂ gas sensor applications.” Diamond and Related Materials (2022): 109205. [IF – 4.1] – Q1
64. Radha, R., K. Rohith Vinod, K. Annamalai, Navaneethan, and S. Balakumar. “Lattice composition dictated photocatalytic activity of bismuth chromium niobate pyrochlore under visible light.” Materials Today: Proceedings (2022). [IF – 3.2] – Q1
65. Bharathi, P., S. Harish, G. Mathankumar, M. Krishna Mohan, J. Archana, S. Kamalakannan, M. Prakash, M. Shimomura, and Navaneethan*. “Solution processed edge activated Ni-MoS₂ nanosheets for highly sensitive room temperature NO₂ gas sensor applications.” Applied Surface Science (2022): 154086. [IF – 6.7] –Q1
66. Prabakaran, P., S. Prabhu, M. Selvaraj, Navaneethan, P. Ramu, and R. Ramesh. “Synthesis of r-GO-incorporated CoWO₄ nanostructure for high-performance supercapattery applications”. Journal of Materials Science: Materials in Electronics 33, no. 12 (2022): 9312-9323. [IF – 2.8] – Q2
67. Mohamed Jibri, Harish. S, J. Archana, and M. Navaneethan*. “Tailoring the electrical and thermal transport properties of LaCoO₃ ceramic by band engineering and Fermi energy optimization via isovalent Al-substitution for thermoelectric application.” Journal of Physics D: Applied Physics (2022) [IF – 3.4] –Q1
68. Monikapani, K., V. Vijay, R. Abinaya, J. Archana, S. Harish, and M. Navaneethan*. “Realizing an enhanced Seebeck coefficient and extremely low thermal conductivity in anharmonic Sb-substituted SnSe nanostructures.” Journal of Alloys and Compounds (2022): 165961. [IF – 6.2] – Q1
69. Kumar, Rishikesh, Ranu Bhatt, Arpan Tewary, A. K. Debnath, Pramod Bhatt, Navaneethan Synergistic effect of Zn doping on thermoelectric properties to realize a high figure-of-merit and conversion efficiency in Bi_2−xZn_xTe₃ based thermoelectric generators Journal of Materials Chemistry C (2022) [IF – 6.4] – Q1
70. Manimozhi, T., S. Kavirajan, K. Kamala Bharathi, E. Senthil Kumar, and Navaneethan*. “Ultra-low thermal conductivity of AgBiS₂ via Sb substitution as a scattering center for thermoelectric applications.” Journal of Materials Science: Materials in Electronics (2022): 1-14. [IF – 2.8] – Q2
71. Prabakaran, P., S. Prabhu, M. Selvaraj, Navaneethan, P. Ramu, and R. Ramesh. “Design and preparation of NiCoS nanostructures on Ni foam for high-performance asymmetric supercapacitor application.” Journal of Materials Science: Materials in Electronics 33, no. 12 (2022): 9256-9268. [IF – 2.8] – Q2
72. Monikapani, K., V. Vijay, S. Harish, J. Archana, C. Muthamizhchelvan, and       Navaneethan*. “Ultra-low thermal conductivity through the reduced phonon lifetime by microstructural and Umklapp scattering in Sn_1-xMn_xSe nanostructures.” Journal of Alloys and Compounds (2022): 165152. [IF – 6.2] – Q1
73. Sreevidya, U., V. Shalini, K. Kamala Bharathi, E. Senthil Kumar, M. Prakash, and Navaneethan* “Enhancing the thermoelectric performance by defect structures induced in p-type polypyrrole-polyaniline nanocomposite for room-temperature thermoelectric applications.” Journal of Materials Science: Materials in Electronics (2022): 1-11. [IF – 2.8] – Q2
74. Aravinthkumar, K., I. John Peter, G. Anandha Babu, Navaneethan, S. Karazhanov, and C. Raja Mohan. “Enhancing the Short Circuit Current of a Dye-Sensitized Solar Cell and Photocatalytic Dye Degradation using Cr doped SrTiO₃ Interconnected Spheres.” Materials Letters(2022): 132284. [IF – 3]– Q1
75. Sengodan, Prabhu, Raji Govindan, Gowdhaman Arumugam, Balaji Chettiannan, Navaneethan, Mohan Reddy Pallavolu, Mohamed Hussien, Manickam Selvaraj, and Ramesh Rajendran. “A rational design of MnO₂/CuO/r-GO hybrid and biomass-derived activated carbon for asymmetric supercapacitors.” Journal of Energy Storage 50 (2022): 104625. [IF – 9.4] – Q1
76. Galivarapu, Jagadish Kumar, Ashika Jose, Erappanal Padmanabhan Jinu, Thirumalainaidu Thiagarajan Saravanan, Senthil Kumar Eswaran, Navaneethan, Harihara Iyer Sreemoolanadhan, and Kamala Bharathi Karuppanan. “Observation of Griffiths Phase, Critical Exponent Analysis and High Magnetocaloric Effect Near Room Temperature at Low Magnetic Field in V doped La_{0. 7}Sr_{0. 3}MnO₃.” Journal of Physics D: Applied Physics (2022). [IF – 3.4] –Q1
77. Prajapati, Chandrakant, Saravanan Muthiah, Navaneethan, Naval Kishor Upadhyay, Radhey Shyam, and Sanjay R. Dhakate. “Nanostructure Approach Enhancing the Thermoelectric Performance of a p-Type HMS-CrSi₂ Composite Synthesized by the MS–SPS Technique.” ACS Applied Energy Materials (2022). [IF – 6.4] – Q1
78. Sathiyamoorthy, K., S. Bharathkumar, R. Roshan Chandrapal, S. Harish, Navaneethan*. “Sunlight assisted photocatalytic decomposition of protonated-g-C₃N₄/LaCoO₃ nanocomposites for environmental remediation.” Journal of Materials Science: Materials in Electronics (2022): 1-9. [IF – 2.8] – Q2
79. Chandrapal, R. Roshan, S. Bharathkumar, G. Bakiyaraj, V. Ganesh, J. Archana, and Navaneethan. “Hydrothermally synthesized strontium-modified ZnO hierarchical nanostructured photocatalyst for second-generation fluoroquinolone degradation.” Applied Nanoscience(2022): 1-16. [IF – 3.869] – Q2
80. Santhi, K., S. Ponnusamy, S. Harish, and Navaneethan. “A facile synthesis of Zn-doped TiO₂ nanostructures for enhanced photocatalytic performance.” Journal of Materials Science: Materials in Electronics (2022): 1-16 [IF – 2.8] – Q2
81. Murali, G., T. Kesavan, S. Ponnusamy, S. Harish, and Navaneethan. “Improved supercapacitor performance based on sustainable synthesis using chemically activated porous carbon.” Journal of Alloys and Compounds906 (2022): 164287 [IF – 6.2] – Q1
82. Bharathi, P., S. Harish, M. Shimomura, S. Ponnusamy, M. Krishna Mohan, J. Archana, and Navaneethan*. “Conductometric NO₂ gas sensor based on Co-incorporated MoS₂ nanosheets for room temperature applications. Sensors and Actuators B: Chemical (2022): 131600 [IF – 8.4] -Q1
83. Murali, G., G. Anandha Babu, R. Ramesh, S. Ponnusamy, S. Harish, and Navaneethan*. High-performance carbon derived from chickpea skin via microwave and slow pyrolysis for supercapacitors. Materials Letters (2022): 131872. [IF – 3]– Q1

84. Santhosh, R., R. Abinaya, J. Archana, S. Ponnusamy, S. Harish, and Navaneethan*. “Controlled grain boundary interfaces of reduced graphene oxide in Ag₂Se matrix for low lattice thermal conductivity and enhanced power factor for thermoelectric applications. Journal of Power Sources: 525 (2022): 231045. [IF – 9.2] – Q1.
85. Sugarthi, S., V. S. Manikandan, S. Harish, G. Bakiyaraj, and Navaneethan. “Study on electrochemical performance of temperature-dependent Cu–Sb–S system. Journal of Materials Science: Materials in Electronics (2022): 1-10. [IF – 2.8] – Q2.
86. Prasanna, C. Suresh, V. Shalini, S. Harish, J. Archana, K. Kamala Bharathi, Senthil Kumar Eswaran, and Navaneethan*. “CuO decorated MoS₂ nanostructures grown on carbon fabric with enhanced power factor for wearable thermoelectric application. Journal of Alloys and Compounds” (2022): 163769. [IF – 6.2] – Q1
87. Sakthivel, P., M. Karuppiah, S. Asaithambi, V. Balaji, Muthu Senthil Pandian, P. Ramasamy, Mustafa KA Mohammed, Navaneethan, G. Ravi. “Electrochemical energy storage applications of carbon nanotube supported heterogeneous metal sulfide electrodes.” Ceramics International48, no. 5 (2022): 6157-6165. [IF – 5.2] – Q1
88. Dona Joseph, J. Archana, S. Kamalakannan, M. Prakash, K. Hara, S. Harish, Navaneethan*. “Double Charge Polarity Switching in Sb-Doped SnSe for enhanced thermo-electric power generation. “Journal of Alloys and Compounds” (2021): 163269 [IF – 6.2] – Q1
89. Vijay, V., S. Harish, J. Archana, Navaneethan* Synergistic effect of grain boundaries and phonon engineering in Sb substituted Bi₂Se₃ nanostructures for thermoelectric applications “Journal of Colloid and Interface Science” (2021): [IF – 9.9] – Q1
90. Mathankumar, G., P. Bharathi, M. Krishna Mohan, J. Archana, S. Harish, and Navaneethan*. “Defect manipulation of WO₃ nanostructures by yttrium for ultra-sensitive and highly selective NO₂ detection.” Sensors and Actuators B: Chemical (2021): 131057. [IF – 8.4] -Q1
91. Vinoth, E., J. Archana, S. Harish, and Navaneethan. “Hydrothermally derived layered 2D SnS nanosheets for Near Infra-Red (NIR) photodetectors.” IEEE Photonics Technology Letters(2021): [IF – 2.6] – Q1
92. Simon Patrick, D., P. Bharathi, M. Krishna Mohan, C. Muthamizchelvan, S. Harish, and Navaneethan*. “Liquid phase exfoliated WS₂ nanosheet-based gas sensor for room temperature NO₂ detection.” Journal of Materials Science: Materials in Electronics(2021): 1-11. [IF – 2.8] – Q2
93. Elumalai, N., S. Prabhu, M. Selvaraj, A. Silambarasan, Navaneethan*, S. Harish, P. Ramu, and R. Ramesh. “Enhanced photocatalytic activity of ZnO hexagonal tube/rGO composite on degradation of organic aqueous pollutant and study of charge transport properties.” Chemosphere(2021): 132782. [IF – 8.8] – Q1
94. Periyanayaga Kristy, A., N. Kawase, Navaneethan, K. D. Nisha, T. Yamakawa, K. Ikeda, M. Shimomura, Y. Hayakawa, and H. Ikeda. “Effect of capping agent for synthesis of ZnO nanostructures on carbon fabrics for thermopower production.”  Journal of Materials Science: Materials in Electronics (2021): 1-11. [IF – 2.8] – Q2
95. Geerthana, M., K. Ramachandran, S. Harish, R. Ramesh, M. Selvaraj, and Navaneethan*. “Three and one-dimensional hierarchical α-Fe₂O₃ nanostructures for photoelectrochemical water oxidation.” Journal of Materials Science: Materials in Electronics (2021): 1-7. [IF – 2.8] – Q2
96. Jenisha, M. Arockia, S. Kavirajan, S. Harish, J. Archana, K. Kamalabharathi, E. Senthil Kumar, and Navaneethan*. “Interfacial engineering effect and bipolar conduction of Ni-doped MoS₂ nanostructures for thermoelectric application.” Journal of Alloys and Compounds(2021): 162493. [IF – 6.2] – Q1
97. Elumalai, N., S. Prabhu, M. Selvaraj, S. Shanavas, Navaneethan, S. Harish, P. Ramu, and R. Ramesh. “Investigation on synergistic effect of rGO and carbon quantum dots-embedded ZnO hollow spheres for improved photocatalytic aqueous pollutant removal process.” Journal of Materials Science: Materials in Electronics(2021): 1-15. [IF – 2.8] – Q2
98. Prabhu, S., N. Elumalai, M. Selvaraj, S. Harish, R. Ramesh, A. Silambarasan, Navaneethan*, and P. Ramu. “Synthesis and characterization of CeO₂ supported ZSM-5 zeolite for organic dye degradation.” Journal of Materials Science: Materials in Electronics(2021): 1-13. [IF – 2.8] – Q2
99. Kristy, A. Periyanayaga, S. Harish, M. Omprakash, K. D. Nisha, H. Ikeda, and Navaneethan*. “Interface effect of graphene oxide in MoS₂ layered nanosheets for thermoelectric application.”  Journal of Materials Science: Materials in Electronics (2021): 1-13. [IF – 2.8] – Q2
100. Raveena, J., V. S. Manikandan, G. Bakiyaraj, and Navaneethan. “Co substituted SnS₂ nanoflakes performed as cost-effective counter electrode for DSSCs applications.” Journal of Materials Science: Materials in Electronics(2021): 1-8. [IF – 2.8] – Q2
101. Suguna, A., S. Prabhu, M. Selvaraj, M. Geerthana, A. Silambarasan, Navaneethan, R. Ramesh, and C. Sridevi. “Annealing effect on photocatalytic activity of ZnO nanostructures for organic dye degradation.” Journal of Materials Science: Materials in Electronics (2021): 1-12. [IF – 2.8] – Q2

102. Harish, S., Tamal Saha, S. Kavirajan, M. Omprakash, E. Senthil Kumar, and Navaneethan*. “Bismuth induced Cu₇Te₄/Sb₂Te₃ nanocomposites for higher thermoelectric power factor and carrier properties.” Journal of Materials Science: Materials in Electronics (2021): 1-11. [IF – 2.8] – Q2
103. Kalaiezhily, R. K., V. Jayaseelan, K. Kamala Bharathi, Navaneethan, and Senthil Kumar Eswaran. “Thickness-dependent structural, optical and dielectric properties of pulsed laser deposited Nb-doped SrTiO₃ thin films.” Journal of Materials Science: Materials in Electronics(2021): 1-8. [IF – 2.8] – Q2
104. Santhi, K., S. Harish, Navaneethan, and S. Ponnusamy. “Synergic effect of Sn-doped TiO₂ nanostructures for enhanced visible light photocatalysis.” Journal of Materials Science: Materials in Electronics(2021): 1-19. [IF – 2.8] – Q2
105. Sindhu, Abhishek Singh, Nitin Babu Shinde, S. Harish, Navaneethan, and Senthil Kumar Eswaran. “Recoverable and reusable visible-light photocatalytic performance of CVD grown atomically thin MoS₂ films.” Chemosphere(2021): 132347. [IF – 8.8] – Q1
106. Baskaran, P., K. D. Nisha, S. Harish, R. Ramesh, H. Ikeda, J. Archana, and               Navaneethan*. “Improved electrochemical performance of Cu₂NiSnS₄ hierarchical nanostructures as counter electrodes in dye sensitized solar cells.” Materials letters (2021): 130946. [IF – 3]– Q1
107. Baskaran, P., K. D. Nisha, S. Harish, H. Ikeda, J. Archana, and Navaneethan*. “Enhanced catalytic performance of Cu₂ZnSnS₂/MoS₂ nanocomposites based counter electrode for Pt-free dye-sensitized solar cells.” Journal of Alloys and Compounds(2021): 162166. [IF – 6.2] – Q1
108. Athithya, S., S. Harish, H. IKeda, M. Shimomura, Y. Hayakawa, J. Archana, and Navaneethan*. “Hierarchically ordered macroporous TiO₂ architecture via self-assembled strategy for environmental remidiation.” Chemosphere (2021): 132236. [IF – 8.8] – Q1
109. Manikandan, V. S., S. Harish, J. Archana, and Navaneethan*. “Fabrication of novel hybrid Z-Scheme WO₃@g-C₃N₄@MWCNT nanostructure for photocatalytic degradation of tetracycline and the evaluation of antimicrobial activity.” Chemosphere(2021): 132050. [IF – 8.8] – Q1
110. Jibri, KP Mohamed, J. Archana, S. Harish, and Navaneethan*. “Suppression of thermal conductivity in LaCoO₃ ceramic by lattice disorder and mass fluctuation scattering for thermoelectric application.” Ceramics International(2021). [IF – 5.2] – Q1
111. Nithiananth, S., K. Silambarasan, T. Logu, S. Harish, R. Ramesh, C. Muthamizhchelvan, M. Shimomura, J. Archana, and Navaneethan*. “Transition divalent metal substitution in chalcopyrite CuInSe₂ (In= Co, Ni, and Mn) counter electrode for dye-sensitized solar cell applications.” Materials Letters(2021): 130887. [IF – 3]– Q1
112. Selvaraj, Saravanan, Baskaran Palanivel, Simon Patrick, M. Krishna Mohan, Navaneethan, S. Ponnusamy, and C. Muthamizhchelvan. “Effect of Sr doping in ZnO microspheres for solar light-driven photodegradation of organic pollutants.” Journal of Materials Science: Materials in Electronics (2021): 1-12. [IF – 2.8] – Q2
113. Manikandan, V. S., A. K. Palai, Ananthakumar Ramadoss, Smita Mohanty, and Navaneethan. “Plasmon enfolded TiO₂ hierarchical photoanode: fabrication and the performance evaluation as liquid-based dye-sensitized solar cell.” Journal of Materials Science: Materials in Electronics (2021): 1-10 [IF – 2.8] – Q2
114. Baskaran, Palanisamy, Ryo Nanao, Yojiro Yamanashi, Masaki Sakaida, Yuhei Suzuki, Mani Navaneethan, Kuruvankatil Dharmajan Nisha. “Measurement of thermal conductivity and thermal diffusivity of one-dimensional-system material by scanning electron microscopy and infrared thermography.” AIP Advances11, no. 9 (2021): 095101. [IF – 1.6] -Q2
115. Prakash, K., S. Prabakaran, S. Harish, and Navaneethan*. “Interfacial charge transport of Ag²⁺-decorated CuI thin film for solar cell application.” Journal of Materials Science: Materials in Electronics(2021): 1-8. [IF – 2.8] – Q2
116. Govindaraj, T., C. Mahendran, V. S. Manikandan, J. Archana, and Navaneethan. “Enhanced visible-light-driven photocatalytic activity of Ce doped WO₃ nanorods for Rhodamine B dye degradation.”Material letters (2021): 130705. [IF – 3]– Q1
117. Jayaseelan, V., R. K. Kalaiezhily, Nitin Babu Shinde, K. Kamala Bharathi, Navaneethan, and Senthil Kumar Eswaran. “In situ X-ray photoelectron spectroscopy study: effect of inert Ar sputter etching on the core-level spectra of the CVD-grown tri-layer MoS₂ thin films.” Journal of Materials Science: Materials in Electronics (2021): 1-6. [IF – 2.8] – Q2
118. Bharathkumar, S., M. Sakar, Navaneethan, and J. Archana. “Mechanistic Insights into the Electrospinning Fabrication of Belt-like structures of BiFeO₃ and their Photocatalytic Properties.” Materials Letters(2021): 130475. [IF – 3] – Q1
119. Sugarthi, S., R. Roshanchandrapal, T. R. Naveenkumar, G. Bakiyaraj, Navaneethan, J. Archana, S. Harish, and B. Neppolian. “Synthesis and Characterization of AgBiS₂/rGO nanocomposites: Reveals interfacial charge transfer.” Materials Letters (2021): 130416. [IF – 3]– Q1
120. Manimozhi, T., S. Kavirajan, S. Harish, J. Archana, K. Kamala Bharathi, E. Senthil Kumar, and Navaneethan*. “Anharmonicity and low-thermal conductivity in the multi-phase composition of Cu₃Bi_0.75Sb_0.25S₃.” Materials Letters(2021): 130399. [IF – 3]– Q1
121. Bharathkumar, S., M. Sakar, J. Archana, M. Navaneethan, and S. Balakumar. “Interfacial engineering in 3D/2D and 1D/2D bismuth ferrite (BiFeO₃)/Graphene oxide nanocomposites for the enhanced photocatalytic activities under sunlight.” Chemosphere(2021): 131280. [IF – 8.8] – Q1
122. Prabakaran, S., K. D. Nisha, S. Harish, J. Archana Invesitigation, and Navaneethan*. “Improved charge transfer dynamics of Antimony doped TiO₂/rGO nanocomposites.” Materials Letters (2021): 130294. [IF – 3]– Q1

123. Prabakaran, S., K. D. Nisha, S. Harish, J. Archana, and Navaneethan*. “Yttrium incorporated TiO₂/rGO nanocomposites as an efficient charge transfer layer with enhanced mobility and electrical conductivity.” Journal of Alloys and Compounds(2021): 160936. [IF – 6.2] – Q1
124. Kumar, G. Jagadish, E. Senthil Kumar, Navaneethan, and K. Kamala Bharathi. “Exchange bias, magnetic, and dielectric properties of La₂FeMnO₆ nanoparticles.” Journal of Materials Science: Materials in Electronics(2021): 1-6. [IF – 2.8] – Q2
125. Vijay, V., Harish Santhanakrishnan, Jayaram Archana, and Navaneethan*. “Role of Cation disorder and bond anharmonicity in thermoelectric performance of p-type AgSbSe₂.” CrystEngComm(2021). [IF – 3.1] – Q1
126. Prabhu, S., C. Balaji, Navaneethan, M. Selvaraj, N. Anandhan, D. Sivaganesh, S. Saravanakumar, Periyasamy Sivakumar, and R. Ramesh. “Investigation on mesoporous bimetallic tungstate nanostructure for high-performance solid-state supercapattery.” Journal of Alloys and Compounds875 (2021): 160066. [IF – 6.2] – Q1
127. Kavirajan, S., S. Harish, J. Archana, M. Shimomura, and Navaneethan. “Phase transition induced thermoelectric properties of Cu₂Te by melt growth process.” Materials Letters298 (2021): 129957. [IF – 3]– Q1
128. Silambarasan, K., S. Harish, K. Hara, J. Archana, and Navaneethan*. “Ultrathin layered MoS₂ and N-doped graphene quantum dots (N-GQDs) anchored reduced graphene oxide (rGO) nanocomposite-based counter electrode for dye-sensitized solar cells.” Carbon181 (2021): 107-117. [IF – 10.9]-Q1
129. Geerthan, M., K. Ramachandran, P. Maadeswaran, S. Harish, Navaneethan, and R. Ramesh. “Activation of α-Fe₂O₃ Photoanode by Rapid Annealing Process for Photoelectrochemical Water Splitting.” ECS Journal of Solid State Science and Technology(2021). [IF – 2.2] – Q2
130. Udhayakumar, S., G. Jagadish Kumar, E. Senthil Kumar, Navaneethan, and K. Kamala Bharathi. “Temperature and Frequency Dependent Dielectric and Conductivity Properties of Sr Doped LiFe₅O₈.” Materials Letters(2021): 130171. [IF – 3]– Q1
131. Annamalai, K., R. Radha, Sergey Kichanov, Navaneethan, and Subramanian Balakumar. “Ice Bath Assisted BiMn₂O₅ (Mullite) Phase Synthesis, Structural and Compositional Analysis under Different Bi Concentration.” ECS Journal of Solid-State Science and Technology(2021). [IF – 2.2]- Q2
132. Geerthana, M., S. Prabhu, S. Harish, Navaneethan, R. Ramesh, and M. Selvaraj. “Design and preparation of ternary α-Fe₂O₃/SnO₂/rGO nanocomposite as an electrode material for supercapacitor.” Journal of Materials Science: Materials in Electronics(2021): 1-17. [IF – 2.8] – Q2
133. Ramachandran, K., M. Geerthana, P. Maadeswaran, Navaneethan, S. Harish, and R. Ramesh. “α-Fe₂O₃/TiO₂ heterojunction-based photoanode with improved interfacial charge transport properties for enhanced photoelectrochemical water splitting.” Journal of Materials Science: Materials in Electronics(2021): 1-9. [IF – 2.8] – Q2
134. Udhayakumar, S., G. Jagadish Kumar, E. Senthil Kumar, Navaneethan, and K. Kamala Bharathi. “Magnetic anomalies, chemical and magnetic properties at wide temperature range (15–1000 K) in LiSr_xFe_5-xO₈ (x= 0, 0.025, 0.05).” Journal of Alloys and Compounds859 (2021): 158290. [IF – 6.2] [C.I-2] – Q1
135. Dona, Joseph, Navaneethan*, S. Harish, J. Archana, C. Muthamizhchelvan, and K. Hara. “Synergistic effect of indium nano-inclusions to enhance interface phonon scattering in polycrystalline SnSe for thermoelectric applications.”Journal of Alloys and Compounds   856 (2021): 157358. [IF – 6.2] – Q1
136. Goyal, C. P., D. Goyal, N. S. Ramgir, Navaneethan, Y. Hayakawa, C. Muthamizhchelvan, H. Ikeda, and S. Ponnusamy. “Surface Modification of ZnO Nanowires with CuO: A Tool to Realize Highly-Sensitive H₂S Sensor.” Physics of the Solid State63, no. 3 (2021): 460-467. [IF – 0.6] [C.I-1] – Q1
137. Abinaya, R., J. Archana, S. Harish, Navaneethan*, C. Muthamizhchelvan, S. Ponnusamy, H. Udono, R. Sugahara, Y. Hayakawa, and M. Shimomura. “Interface driven energy-filtering and phonon scattering of polyaniline incorporated ultrathin layered molybdenum disulphide nanosheets for promising thermoelectric performance.” Journal of Colloid and Interface Science584 (2021): 295-309. [IF – 9.9] [C.I.-1] – Q1
138. Baskaran, P., K. D. Nisha, S. Harish, S. Prabakaran, Navaneethan*, J. Archana, S. Ponnusamy, C. Muthamizhchelvan, and H. Ikeda. “High-performance electrocatalytic and cationic substitution in Cu2ZnSnS4 as a low-cost counter electrode for Pt-free dye-sensitized solar cells.” Journal of Materials Science 56, no. 6 (2021): 4135-4150. [IF – 4.5] [C.I-1] – Q1
139. Harish, S., P. Bharathi, Prachi Prasad, R. Ramesh, S. Ponnusamy, M. Shimomura, J. Archana, and Navaneethan*. “Interface enriched highly interlaced layered MoS₂/NiS₂ nanocomposites for the photocatalytic degradation of rhodamine B dye.” RSC Advances11, no. 31 (2021): 19283-19293. [IF – 3.9] – Q1
140. Harish, S., S. Athithya, V. Shivani, S. Ponnusamy, M. Shimomura, J. Archana, and Navaneethan*. “Oxide-based catalysis: tailoring surface structures via organic ligands and related interfacial charge carrier for environmental remediation.” RSC Advances11, no. 31 (2021): 19059-19069. [IF – 3.9] -Q1
141. Megala, P. Ravi, P. Maadeswaran, M. Navaneethan, M. Sathish, and R. Ramesh. “The construction of a dual direct Z-scheme NiAl LDH/gC₃N₄/Ag₃PO₄ nanocomposite for enhanced photocatalytic oxygen and hydrogen evolution.” Nanoscale Advances(2021). [IF – 4.7] – Q1
142. Kumar Jagadish, M. Sarathbavan, YuvarajSivalingam, M. Navaneethan, and K. Kamala Bharathi. “Mechanism of analog bipolar resistive switching and work function in Au/Na_{0. 5}Bi_{0. 5}TiO₃/Pt heterostructure thin films.” Materials Chemistry and Physics’ 257 (2021): 123765. [IF- 4.6] [C.I-1] – Q2
143. Abinaya, S. Harish, S. Ponnusamy, M. Shimomura, M. Navaneethan*, and J. Archana. “Enhanced thermoelectric figure-of-merit of MoS₂/α-MoO₃ nanosheets via tuning of sulphur vacancies.” Chemical Engineering Journal416 (2021): 128484. [IF-15.1] -Q1
144. Jegadish, M. Sarathbavan, E. Senthil Kumar, M. Navaneethan, and K. Kamala Bharathi. Structural, Chemical and Low Temperature Magnetic Properties of Lead Free 0.6 NiFe₂O₄Na_{0. 5}Bi_0.5TiO₃ Magnetoelectric Composite.” Journal of Materials Science: Materials in Electronics (2021) [IF – 2.8] – Q2
145. Shalini, V., S. Harish, J. Archana, H. Ikeda, and Navaneethan*. “Interface effect and band engineering in Bi₂Te₃:C and Bi₂Te₃:Ni-Cu with enhanced thermopower for self-powered wearable thermoelectric generator.” Journal of Alloys and Compounds868 (2021): 158905 [IF – 6.2] – Q1
146. Prabhu, A. Gowdhaman, S. Harish, M. Navaneethan, R. Ramesh Synthesis of petal-like CoMoO₄/r-GO composites for high performances hybrid supercapacitor.” Materials Letters 295 (2021): 129821 [IF – 3]
147. Harish, M. Navaneethan, J. Archana, S. Ponnusamy, C. Muthamizhchelvan, and Masaru Shimomura. “Engineering of mono-dispersed mesoporous TiO₂ over 1-D nanorods for water purification under visible light irradiation.” Environmental Science and Pollution Research(2020): 1-10 [IF- 5.8] – Q2
148. Prabhu., S. Sohila, D. Navaneethan, S. Harish, M. Navaneethan, and R. Ramesh. “Three-dimensional flower-like CuO/Co₃O₄/r-GO heterostructure for high-performance asymmetric supercapacitors.” Journal of Alloys and Compounds 846 (2020): 156439. [IF – 6.2] [C.I- 1] – Q1
149. Manimozhi, T. Logu, J. Archana, M. Navaneethan, K. Sethuraman, and K. Ramamurthi. “Enhanced photo-response of CdTe Thin film via Mo doping prepared using electron beam evaporation technique.” Journal of Materials Science: Materials in Electronics (2020): 1-14. [IF – 2.8] [C.I-1] – Q2
150. P.Goyal, D. Goyal, V. Ganesh, N. S. Ramgir, M. Navaneethan, Y. Hayakawa, C. Muthamizhchelvan, H. Ikeda, and S. Ponnusamy. “Improvement of Photocatalytic Activity by Zn Doping in Cu₂O.” Physics of the Solid State 62, no. 10 (2020): 1796-1802. [IF-0.6] [C.I-2] -Q3
151. Subash Sruthy, Vijay Vaiyapuri, Navaneethan, Yuvaraj Sivalingam, and K. Kamala Bharathi. “High temperature Seebeck coefficient, small-polaron conduction and work function of LiMn_{1. 5}Ni_{0. 5}O₄ thin films.” Journal of Physics D: Applied Physics 53, no. 47 (2020): 475304. [IF – 3.4] –Q1
152. Ahmad Sajid, Ajay Singh, Shovit Bhattacharya, Navaneethan, Ranita Basu, Ranu Bhatt, Pritam Sarkar et al. “Band Convergence and Phonon Scattering Mediated Improved Thermoelectric Performance of SnTe–PbTe Nanocomposites.” ACS Applied Energy Materials 3, no. 9 (2020): 8882-8891. [IF – 6.4] [C.I-1] -Q1
153. Ahmad Sajid, Ajay Singh, Shovit Bhattacharya, Navaneethan, Ranita Basu, Ranu Bhatt, Pritam Sarkar et al. “Remarkable Improvement of Thermoelectric Figure-of-Merit in SnTe through In Situ-Created Te Nanoinclusions.” ACS Applied Energy Materials 3, no. 7 (2020): 7113-7120. [IF – 6.4] [C.I-2] -Q1
154. Bohra, Anil Kumar, Ranu Bhatt, Ajay Singh, Shovit Bhattacharya, Ranita Basu, Pramod Bhatt, Navaneethan. “Stabilizing Thermoelectric Figure‐of‐Merit of Superionic Conductor Cu₂Se through W Nanoinclusions.” physica status solidi (RRL)–Rapid Research Letters (2020): 2000102. [IF-2.8] [C.I-2]- Q1
155. Kavirajan, J. Archana, S. Harish, M. Omprakash, M. Navaneethan*, S. Ponnusamy, C. Muthamizhchelvan, Y. Inatomi, M. Shimomura, and Y. Hayakawa. “Enhanced seebeck coefficient and low thermal conductivity of Cu₂Se_xTe_1-x solid solutions via minority carrier blocking and interfacial effects.” Journal of Alloys and Compounds (2020): 155188. [IF – 6.2] [C.I-1] – Q1
156. Megala, M. Sathish, S. Harish, M. Navaneethan, S. Sohila, B. Liang, and R. Ramesh. “Enhancement of photocatalytic H₂ evolution from water splitting by construction of two dimensional gC₃N₄/NiAl layered double hydroxides.” Applied Surface Science 509 (2020): 144656. [IF – 6.7] –Q1
157. Chenrayan, Amutha Subramani, Partheeban Thamodaran, M. Navaneethan Kumaran Vediappan, Sasidharan Manickam, and Chang Woo Lee. “Nitrogen self-doped carbon sheets anchored hematite nanodots as efficient Li-ion storage anodes through pseudocapacitance mediated redox process.” Journal of Industrial and Engineering Chemistry(2020) [IF-6.1] [C.I- 3] – Q1
158. Nithiananth, S. Harish, J. Archana, M. Navaneethan, and M. Shimomura. “Crystal facet engineering of single-crystalline anatase TiO₂ nanosheets with exposing dominate (0 1 0)-facet.” Materials Letters 264 (2020): 127354. [IF – 3] [C.I-1] – Q1
159. P. Goyal, Deepak Goyal, Sinjumol K Rajan, Niranjan S. Ramgir, Yosuke Shimura, M. Navaneethan, Yasuhiro Hayakawa, C. Muthamizhchelvan, Hiroya Ikeda, and S. Ponnusamy. “Effect of Zn Doping in CuO Octahedral Crystals towards Structural, Optical, and Gas Sensing Properties.” Crystals 10, no. 3 (2020): 188. [IF-2.7] [C.I-3]- Q2
160. Maheswari, S. Harish, M. Navaneethan, C. Muthamizhchelvan, S. Ponnusamy, and Y. Hayakawa. “Bio-modified TiO₂ nanoparticles with Withania somnifera, Eclipta prostrata and Glycyrrhiza glabra for anticancer and antibacterial applications.” Materials Science and Engineering: C 108 (2020): 110457. [IF- 8.45] [C.I-7] – Q1
161. Sugarthi, G. Bakiyaraj, R. Abinaya, M. Navaneethan, J. Archana, and M. Shimomura. “Effect of different growth temperature on the formation of ternary metal chalcogenides AgBiS₂.” Materials Science in Semiconductor Processing 107 (2020): 104781. [IF-4.1] [C.I-1] -Q1
162. Joseph Dona, Navaneethan*, R. Abinaya, S. Harish, J. Archana, S. Ponnusamy, K. Hara, and Y. Hayakawa. “Thermoelectric performance of Cu-doped MoS₂ layered nanosheets for low grade waste heat recovery.” Applied Surface Science 505 (2020): 144066. [[IF – 6.7] –Q1
163. Prabhu, M. Pudukudy, S. Harish, M. Navaneethan, S. Sohila, K. Murugesan, and R. Ramesh. “Facile construction of djembe-like ZnO and its composite with g-C₃N₄ as a visible-light-driven heterojunction photocatalyst for the degradation of organic dyes.” Materials Science in Semiconductor Processing 106 (2020): 104754. [IF-4.1] [C.I-13] – Q1
164. Silambarasan, J. Archana, S. Athithya, S. Harish, R. Sankar Ganesh, M. Navaneethan*, S. Ponnusamy, C. Muthamizhchelvan, K. Hara, and Y. Hayakawa. “Hierarchical NiO@ NiS@ graphene nanocomposite as a sustainable counter electrode for Pt free dye-sensitized solar cell.“ Applied Surface Science 501 (2020): 144010. [IF – 6.7] –Q1
165. Santhi, M. Navaneethan, S. Harish, S. Ponnusamy, and C. Muthamizhchelvan. “Synthesis and characterization of TiO₂ nanorods by hydrothermal method with different pH conditions and their photocatalytic activity.“ Applied Surface Science 500 (2020): 144058. [IF – 6.7] –Q1
166. Silambarasan, J. Archana, S. Harish M. Navaneethan*, S. Ponnusamy, C. Muthamizhchelvan, and K. Hara. “One-step fabrication of ultrathin layered 1T@2H phase MoS₂ with high catalytic activity based counter electrode for photovoltaic devices.” Journal of Materials Science & Technology 51 (2020) 94-101[IF-10.9] [C.I-1] – Q1
167. Kavirajan, J. Archana, S. Harish, M. Navaneethan*, S. Ponnusamy, K. Hayakawa, Y. Kubota, M. Shimomura, and Y. Hayakawa. “Effect of densification technique and carrier concentration on the thermoelectric properties of n-type Cu_1.45Ni_1.45Te₂ ternary compound.” CrystEngComm (2020) [IF – 3.1] [C.I-] – Q1
168. Mathankumar, P. Bharathi, M. Krishna Mohan, S. Harish, M. Navaneethan, J. Archana, P. Suresh et al. “Synthesis and functional properties of nanostructured Gd-doped WO₃/TiO₂ composites for sensing applications.” Materials Science in Semiconductor Processing 105 (2020): 104732 [IF – 4.1] [C.I-8] – Q1
169. Sankar Ganesh, E. Durgadevi, K. Silambarasan, M. Navaneethan, S. Ponnusamy, C. Y. Kong, C. Muthamizhchelvan, Y. Shimura, and Y. Hayakawa. “Effect of ethylenediamine on morphology of 2D Co-Mo-S@ NG hybrids and their enhanced electrocatalytic activity for DSSCs application.” Materials Science in Semiconductor Processing 105 (2020): 104725 [IF – 4.1] [C.I-2] – Q1
170. Bharathi, M. Krishna Mohan, V. Shalini, S. Harish, M. Navaneethan*, J. Archana, M. Ganesh Kumar et al. “Growth and influence of Gd doping on ZnO nanostructures for enhanced optical, structural properties and gas sensing applications.” Applied Surface Science 499 (2020): 143857 [IF – 6.7] –Q1
171. Harish, K. D. Nisha, S. Prabakaran, B. Sridevi, S. Harish, M. Navaneethan*, S. Ponnusamy, Y. Hayakawa, C. Vinniee, and M. R. Ganesh. “Cytotoxicity assessment of chitosan coated CdS nanoparticles for bio-imaging applications.” Applied Surface Science 499 (2020): 143817 [IF – 6.7] –Q1
172. Prabakaran, K. D. Nisha, S. Harish, J. Archana, M. Navaneethan*, S. Ponnusamy, C. Muthamizhchelvan, H. Ikeda, and Y. Hayakawa. “Synergistic effect and enhanced electrical properties of TiO₂/SnO₂/ZnO nanostructures as electron extraction layer for solar cell application.” Applied Surface Science 498 (2019): 143702 [IF – 6.7] –Q1
173. Saravanan, M. Krishna Mohan, M. Navaneethan, S. Ponnusamy, and C. Muthamizhchelvan. “Synthesis and photocatalytic activity of Gd doped ZnO nanoparticles for enhanced degradation of methylene blue under visible light.” Materials Science in Semiconductor Processing 103 (2019): 104622 [IF – 4.1] [C.I-13] – Q1
174. Harish, G. Murugesan, J. Archana, M. Navaneethan*, S. Ponnusamy, C. Muthamizhchelvan, M. Shimomura, and Y. Hayakawa. “Effect of organic ligand on ZnO nanostructures and to investigate the photocatalytic activity under visible light illumination.” Materials Science in Semiconductor Processing 103 (2019): 104608 [IF – 4.1] [C.I-3] – Q1
175. Manimozhi, J. Archana, M. Navaneethan, and K. Ramamurthi. “Morphology and phase-controlled synthesis of PVP-assisted copper antimony sulfide microstructures using solvothermal method and their properties.” Materials Science in Semiconductor Processing 103 (2019): 104606 [IF – 4.1] [C.I-1] – Q1
176. Sankar Ganesh, V. L. Patil, E. Durgadevi, M. Navaneethan, S. Ponnusamy, C. Muthamizhchelvan, S. Kawasaki, P. S. Patil, and Y. Hayakawa. “Growth of Fe doped ZnO nanoellipsoids for selective NO₂ gas sensing application.” Chemical Physics Letters 734 (2019): 136725 [IF – 2.8] [C.I-6] -Q2
177. Shalini, M. Navaneethan*, S. Harish, J. Archana, S. Ponnusamy, H. Ikeda, and Y. Hayakawa. “Design and fabrication of PANI/GO system for enhanced room-temperature thermoelectric application.” Applied Surface Science 493 (2019) 1350-1360 [IF – 6.7] –Q1
178. Murali, S. Harish, S. Ponnusamy, Jeevani Ragupathi, Helan Annal Therese, M. Navaneethan*, and C. Muthamizhchelvan. “Hierarchically porous structured carbon derived from peanut shell as an enhanced high-rate anode for lithium-ion batteries.” Applied Surface Science 492 (2019) 464-472 [IF – 6.7] –Q1
179. Krishna Mohan, M. Navaneethan, S. Ponnusamy, and C. Muthamizhchelvan. “Etching and microhardness studies of pure and doped nonlinear optical crystals of hippuric acid.” Applied Surface Science 491 (2019) 123-127 [IF – 6.7] –Q1
180. Kamaljeet, S. Harish, J. Archana, M. Navaneethan, M. Shimomura, and Y. Hayakawa. “Investigation of Gd-doped mesoporous TiO₂ spheres for environmental remediation and energy storage applications.” Applied Surface Science 489 (2019) 883-892 [IF – 6.7] –Q1
181. Shivani, S. Harish, J. Archana, M. Navaneethan*, S. Ponnusamy, and Y. Hayakawa. “Highly efficient 3-D hierarchical Bi₂WO₆ catalyst for environmental remediation.” Applied Surface Science 488 (2019): 696-706 [IF – 6.7] –Q1
182. Harish, J. Archana, M. Navaneethan*, M. Shimomura, H. Ikeda, and Y. Hayakawa. “Synergistic interaction of 2D layered MoS₂/ZnS nanocomposite for highly efficient photocatalytic activity under visible light irradiation.” Applied Surface Science 488 (2019): 36-45 [IF – 6.7] –Q1
183. Murugan, C. Senthil, T. Kesavan, T. Partheeban, M. Navaneethan, B. Senthilkumar, P. Barpanda, and M. Sasidharan. “Reactive template synthesis of Li_{1. 2}Mn_{0. 54}Ni_{0. 13}Co_{0. 13}O₂ nanorod cathode for Li-ion batteries: Influence of temperature over structural and electrochemical properties.” Electrochimica Acta 317 (2019) 398-407 [IF-6.7] [C.I-5] – Q1
184. Prabhu, S. Megala, S. Harish, M. Navaneethan, P. Maadeswaran, S. Sohila, S. Ramesh. “Enhanced photocatalytic activities of ZnO dumbbell/reduced graphene oxide nanocomposites for degradation of organic pollutants via efficient charge separation pathway.” Applied Surface Science 487 (2019): 1279-1288 [IF – 6.7] [C.I-22]- Q1
185. Manimozhi, J. Archana, M. Navaneethan, and K. Ramamurthi. “Shape-controlled synthesis of AgBiS₂ nano-/microstructures using PEG-assisted facile solvothermal method and their functional properties.” Applied Surface Science 487 (2019): 664-673 [IF – 6.7] [C.I-4]- Q1
186. Divya, T. Mathavan, S. Harish, J. Archana, A. Milton Franklin Benial, Y. Hayakawa, and M. Navaneethan. “Synthesis and characterization of branchlet-like SrCO₃ nanorods using triethylamine as a capping agent by wet chemical method.” Applied Surface Science 487 (2019): 1271-1278 [IF – 6.7] [C.I-4] – Q1
187. Kavirajan, J. Archana, M. Omprakash, S. Harish, M. Navaneethan*, S. Ponnusamy, C. Muthamizhchelvan, M. Shimomura, and Y. Hayakawa. “Ultra-low thermal conductivity via interfacial phonon scattering in PbTe hoppercubes/PbTeO₃ microrods for thermoelectric applications.” Journal of Alloys and Compounds 799 (2019): 26-35 [IF – 6.2] [C.I-] – Q1
188. R. Ganesh, Aamir Y. Mamajiwala, E. Durgadevi, M. Navaneethan, S. Ponnusamy, C. Y. Kong, C. Muthamizhchelvan, Y. Shimura, and Y. Hayakawa. “Zn and Sr co-doped TiO₂ mesoporous nanospheres as photoanodes in dye sensitized solar cell.” Materials Chemistry and Physics 234 (2019) 259-267 [IF- 4.6] [C.I-4] – Q2
189. Bharathi, S. Harish, J. Archana, M. Navaneethan*, S. Ponnusamy, C. Muthamizhchelvan, M. Shimomura, and Y. Hayakawa. “Enhanced charge transfer and separation of hierarchical CuO/ZnO composites: The synergistic effect of photocatalysis for the mineralization of organic pollutant in water.” Applied Surface Science 484 (2019): 884-891 [IF – 6.7] [C.I-21] – Q1
190. P. Goyal, M. Omprakash, M. Navaneethan, T. Takeuchi, Y. Shimura, M. Shimomura, S. Ponnusamy, Y. Hayakawa, and H. Ikeda. “Fabrication of ultrathin poly-crystalline SiGe-on-insulator layer for thermoelectric applications.” Journal of Physics Communications 3, no. 7 (2019): 075007. [IF- 1.2] [C.I-1] – Q3
191. Megala, S. Prabhu, S. Harish, M. Navaneethan, S. Sohila, and R. Ramesh. “Enhanced photocatalytic dye degradation activity of carbonate intercalated layered Zn, ZnNi and ZnCu hydroxides.” Applied Surface Science 481 (2019): 385-393 [IF – 6.7] [C.I-9] – Q1
192. S. Ganesh, K. Silambarasan, E. Durgadevi, M. Navaneethan, S. Ponnusamy, C. Y. Kong, C. Muthamizhchelvan, Y. Shimura, and Y. Hayakawa. “Metal sulfide nanosheet–nitrogen-doped graphene hybrids as low-cost counter electrodes for dye-sensitized solar cells.” Applied Surface Science 480 (2019): 177-185 [IF- 6.7] [C.I-10] – Q1
193. Prabhu, M. Geerthana, S. Sohila, G. M. Bhalerao, S. Harish, M. Navaneethan, Y. Hayakawa, and R. Ramesh. “Preparation of Cr³⁺ Substituted NiFe₂O₄ Nanoparticles and Its Microwave Absorption Properties.” Journal of Superconductivity and Novel Magnetism 32, no. 5 (2019): 1423-1429 [IF-1.8] [C.I-] – Q3
194. Pratheesya, S. Harish, M. Navaneethan, S. Sohila, and R. Ramesh. “Enhanced antibacterial and photocatalytic activities of silver nanoparticles anchored reduced graphene oxide nanostructure.” Materials Research Express 6, no. 7 (2019): 074003 [IF-2.3] [C.I-6] – Q2
195. Sajid, R. Basu, P. Sarkar, A. Singh, A. Bohra, S. Bhattacharya, R. Bhatt, M. Navaneethan, et al. “Enhanced thermoelectric figure-of-merit of p-type SiGe through TiO₂ nanoinclusions and modulation doping of boron.” Materialia 4 (2018): 147-156 [IF-3.4] – Q1

Dr. E. Senthil Kumar

1. Ponnusamy, Krishna Moorthy, Navanya Raveendran, Santhosh Durairaj, Senthil Kumar Eswaran, and S. Chandramohan. “Spectroscopic visualization of intermediate phases during CVD synthesis of MoS₂.” Journal of Physics and Chemistry of Solids (2023): 111575. (IF: 4)
2. Gopalakrishnan, S., V. Saranya, S. Harish, Senthil Kumar, and M. Navaneethan. “Heterogeneous bimetallic oxysulfide nanostructure (Ni-Co) as hybrid bifunctional electrocatalyst for sustainable overall alkaline simulated seawater splitting.” Journal of Alloys and Compounds (2023): 171124. (IF:6.2)
3. Subash, Sruthy, S. Udhayakumar, Lakshmanan Kumaresan, L. N. Patro, V. Kumaran, Senthil Kumar, M. Navaneethan, Do Kyung Kim, and K. Kamala Bharathi. “Ordered LiFe₅O₈ thin films prepared by pulsed laser deposition as an anode material for all-solid thin film batteries.” Electrochimica Acta 454 (2023): 142318. (IF:6.6)
4. Kumar, G. Jagadish, Ashika Jose, E. P. Jinu, T. T. Saravanan, Senthil Kumar, M. Navaneethan, H. Sreemoolanadhan, and K. Kamala Bharathi. “B-site disorder induced Griffiths phase evolution and high magnetocaloric effect in La_0.7Sr_0.3 A_{0. 05} Mn_{0. 95}O₃ (A: Si, Ti).” Materials Research Bulletin 160 (2023): 112140. (IF:5.4)
5. Syamsai, Ravuri, Andrews Nirmala Grace, Ganesan Anandha Babu, Kamala Bharathi Karuppanan, Senthil Kumar Eswaran, and Mani Navaneethan. “Titanium–Tantalum Double-Ordered MXene Nanosheets as Supercapacitor Electrodes.” ACS Applied Nano Materials 6, no. 7 (2023): 5224-5232. (IF:5.9)
6. John, Simon Sajan, R. Abinaya, S. Harish, Senthil Kumar, J. Archana, and M. Navaneethan. “Influence of secondary phases of Sb₂O₃ and CoSb₂ on CoSb₃ skutterudite to reduce thermal conductivity.” Journal of Alloys and Compounds936 (2023): 167801. (IF:6.2)
7. Sreevidya, U., V. Shalini, S. Kavirajan, K. R. Maiyelvaganan, M. Prakash, K. Kamala Bharathi, Senthil Kumar, J. Archana, S. Harish, and M. Navaneethan. “Investigation of non-covalent interactions in Polypyrrole/Polyaniline/Carbon black ternary complex for enhanced thermoelectric properties via interfacial carrier scattering and π-π stacking.” Journal of Colloid and Interface Science 630 (2023): 46-60. (IF:9.9)
8. Gopalakrishnan, S., Mihir Ranjan Sahoo, Avijeet Ray, Nirpendra Singh, S. Harish, Senthil Kumar, and M. Navaneethan. “NiCo₂S₄ cocatalyst supported Si nanowire heterostructure for improved solar-driven water reduction: experimental and theoretical insights.” Sustainable Energy & Fuels 7, no. 7 (2023): 1687-1697. (IF:5.6)
9. Nandhagopal, P., Nitin Babu Shinde, Senthil Kumar, and D. Bharathi Mohan. “Probing the interfacial interactions of N719 with MoS₂ using intrinsic surface enhanced Raman scattering.” Applied Surface Science604 (2022): 154581. (IF:6.7)
10. Shalini, V., S. Harish, J. Archana, Senthil Kumar Eswaran, and M. Navaneethan. “CuO decorated MoS₂ nanostructures grown on carbon fabric with enhanced power factor for wearable thermoelectric application.” Journal of Alloys and Compounds904 (2022): 163769. (IF:6.2)
11. Sreevidya, U., V. Shalini, K. Kamala Bharathi, Senthil Kumar, M. Prakash, and M. Navaneethan. “Enhancing the thermoelectric performance by defect structures induced in p-type polypyrrole-polyaniline nanocomposite for room-temperature thermoelectric applications.” Journal of Materials Science: Materials in Electronics33, no. 15 (2022): 11650-11660. (IF:2.8)
12. Kalaiezhily, R. K., V. Jayaseelan, K. Kamala Bharathi, M. Navaneethan, and Senthil Kumar Eswaran. “Thickness-dependent structural, optical and dielectric properties of pulsed laser deposited Nb-doped SrTiO₃ thin films.” Journal of Materials Science: Materials in Electronics(2022): 1-8. (IF:2.8)
13. Jayaseelan, V., R. K. Kalaiezhily, Nitin Babu Shinde, K. Kamala Bharathi, M. Navaneethan, and Senthil Kumar Eswaran. “In situ X-ray photoelectron spectroscopy study: effect of inert Ar sputter etching on the core-level spectra of the CVD-grown tri-layer MoS₂ thin films.” Journal of Materials Science: Materials in Electronics33, no. 11 (2022): 8741-8746. (IF:2.8)
14. Jagadish Kumar, G., Senthil Kumar, M. Navaneethan, and K. Kamala Bharathi. “Exchange bias, magnetic, and dielectric properties of La₂FeMnO₆ nanoparticles.” Journal of Materials Science: Materials in Electronics 33, no. 11 (2022): 8467-8472. (IF:2.8)
15. Bellarmine, F., Senthil Kumar Eswaran, Ramanjaneyulu Mannam, and MS Ramachandra Rao. “Size-dependent whispering gallery modes in Au-coated ZnO microrods.” Journal of Materials Science: Materials in Electronics 33, no. 11 (2022): 8368-8375. (IF:2.8)
16. Kumar, G. Jagadish, M. Sarathbavan, Senthil Kumar, M. Navaneethan, and K. Kamala Bharathi. “Structural, chemical and low-temperature magnetic properties of lead-Free 0.6NiFe₂O_4-0.4Na_0.5Bi_0.5TiO₃ magnetoelectric composite.” Journal of Materials Science: Materials in Electronics33, no. 11 (2022): 8344-8354. (IF:2.8)
17. Jose, Ashika, E. P. Jinu, T. T. Saravanan, Senthil Kumar, M. Navaneethan, H. Sreemoolanadhan, and K. Kamala Bharathi. “Observation of Griffiths phase, critical exponent analysis and high magnetocaloric effect near room temperature at low magnetic field in V-doped La_0.7Sr_0.3MnO₃.” Journal of Physics D: Applied Physics 55, no. 21 (2022): 215001. (IF:3.4)
18. Jenisha, M. Arockia, S. Kavirajan, S. Harish, J. Archana, K. Kamalabharathi, Senthil Kumar, and M. Navaneethan. “Interfacial engineering effect and bipolar conduction of Ni-doped MoS₂ nanostructures for thermoelectric application.” Journal of Alloys and Compounds 895 (2022): 162493. (IF:6.2)
19. Viitaniemi, Maria LK, Christian Zimmermann, Vasileios Niaouris, Samuel H. D’Ambrosia, Xingyi Wang, Senthil Kumar, Faezeh Mohammadbeigi, Simon P. Watkins, and Kai-Mei C. Fu. “Coherent spin preparation of indium donor qubits in single ZnO nanowires.” Nano Letters22, no. 5 (2022): 2134-2139. (IF:10.8)
20. Udhayakumar, S., G. Jagadish Kumar, Senthil Kumar, M. Navaneethan, and K. Kamala Bharathi. “Electrical, electronic and magnetic property correlation via oxygen vacancy filling and scaling-law analysis in LiFe₅ O₈ thin films prepared by pulsed laser deposition.” Journal of Materials Chemistry C10, no. 40 (2022): 15051-15060. (IF:11.9)
21. Viitaniemi, Maria LK, Christian Zimmermann, Vasileios Niaouris, Samuel H. D’Ambrosia, Xingyi Wang, Senthil Kumar, Faezeh Mohammadbeigi, Simon P. Watkins, and Kai-Mei C. Fu. “Coherent spin preparation of indium donor qubits in single zno nanowires.” Nano Letters22, no. 5 (2022): 2134-2139. (IF:10.8)
22. Sindhu, Abhishek Singh, Nitin Babu Shinde, S. Harish, M. Navaneethan, and Senthil Kumar Eswaran. “Recoverable and reusable visible-light photocatalytic performance of CVD grown atomically thin MoS₂” Chemosphere287 (2022): 132347. (IF:8.8)
23. Shinde, Nitin Babu, Beo Deul Ryu, Chang-Hee Hong, Bellarmine Francis, S. Chandramohan, and Senthil Kumar Eswaran. “Growth Behavior, nucleation control and excellent optical properties of atomically thin WS₂ thin films processed via Gas-phase chemical vapor deposition.” Applied Surface Science568 (2021): 150908. (IF:6.7)
24. Shinde, Nitin Babu, and Senthil Kumar Eswaran. “Davydov splitting, double-resonance Raman scattering, and disorder-induced second-order processes in chemical vapor deposited MoS₂ thin films.” The Journal of Physical Chemistry Letters12, no. 26 (2021): 6197-6202. (IF:5.7)
25. Manimozhi, T., S. Kavirajan, S. Harish, J. Archana, K. Kamala Bharathi, Senthil Kumar, and M. Navaneethan. “Anharmonicity and low-thermal conductivity in the multi-phase composition of Cu3Bi0. 75Sb0. 25S3.” Materials Letters304 (2021): 130399. (IF:3)
26. Durairaj, Santhosh, Krishnamoorthy Ponnusamy, Nitin Babu Shinde, Senthil Kumar Eswaran, Vijayshankar Asokan, Jong Bae Park, and S. Chandramohan. “Oxygen-driven growth regulation and defect passivation in chemical vapor deposited MoS₂ ” Crystal Growth & Design21, no. 12 (2021): 6793-6801. (IF:3.8)
27. Viitaniemi, Maria LK, Christian Zimmermann, Vasilis Niaouris, Senthil Kumar, Simon Watkins, and Kai-Mei C. Fu. “Optical Pumping of Few Shallow Donor Qubits in ZnO Nanostructures.” In 2021 Conference on Lasers and Electro-Optics (CLEO), pp. 1-2. IEEE, 2021.
28. Udhayakumar, S., G. Jagadish Kumar, Senthil Kumar, M. Navaneethan, and K. Kamala Bharathi. “Magnetic anomalies, chemical and magnetic properties at wide temperature range (15–1000 K) in LiSr_xFe_5-xO₈ (x: 0, 0.025, 0.05).” Journal of Alloys and Compounds859 (2021): 158290. (IF:6.2)
29. Udhayakumar, S., G. Jagadish Kumar, Senthil Kumar, M. Navaneethan, and K. Kamala Bharathi. “Temperature and frequency dependent dielectric and conductivity properties of Sr doped LiFe₅O₈.” Materials Letters300 (2021): 130171. (IF:3)
30. Murugan, Vijaykumar, Kalaiarasan Meganathan, Nitin Babu Shinde, and Senthil Kumar Eswaran. “Strain-mediated unusual bandgap bowing in continuous composition tuned monolayer Mo_{1− x}W_xS₂ ternary alloys.” Applied Physics Letters118, no. 1 (2021). (IF:4)
31. Nitin B. Shinde, S. D. Ryu, M. Kalaiarasan, B. Francis, C. H. Hong, S. Chandramohan, Senthil Kumar Eswaran*, Large-scale Atomically Thin Monolayer 2H-MoS₂ Field Effect Transistors, ACS Appl Nano Mater. 3, 7371 (2020). (IF:5.9)
32. Hegde, F. Mohammadbeigi, T. Kure, Senthil Kumar Eswaran, M. R. Wagner, A. Hoffmann and S. P. Watkins, Triple group-V donors in ZnO, Journal of Applied Physics 127, 075705 (2019). (IF:3.2)
33. Nitin B. Shinde, B. Francis, M. S. Ramachandra Rao, B. D. Ryu, S. Chandramohan and Senthil Kumar Eswaran*, Rapid wafer-scale fabrication with layer-by-layer thickness control of atolically thin MoS₂ films, APL Materials, 7, 081113 (2019). (IF:6.1)
34. Belarmine, E. Senthil Kumar, R. Mannam, and M. S. Ramachandra Rao, Observation of ultraviolet whispering gallery modes in ZnMgO microrods, Journal of Luminescence, 210, 404 (2019). (IF:3.6)
35. P Watkins, F. Mohammadbeigi, K. Stirling and E. Senthil Kumar, Identification of the shallow donot state in Sb doped ZnO by photoluminescence excitation spectroscopy, Journal of Applied Physics 124, 195701 (2018). (IF:3.2)
36. Bellarmine, E. Senthil Kumar* and M. S. Ramachandra Rao*, Effect of substrate on the structural transformation and optical properties of Zn_1-xMg_xO thin films grown by pulsed laser deposition, Scripta Materialia, 146, 196 (2018). (IF:6)
37. Shima Alagha, Sebastian Heedt, Daniel Vakulov, Faezeh Mohammadbeigi, E Senthil Kumar, Thomas Schaepers, Dieter Isheim, Simon P Watkins, Karen L Kavanagh, Electrical properties of lightly Ga doped ZnO Nanowires, Semiconductor Science and Technology 32, 125010 (2017). (IF:1.9)
38. Mohammedbeigi, Thomas Kure, Gordon Callsen, E. Senthil Kumar, M. R. Wagner, A. Hoffmanm and S. Watkins, Influence of carbon doping and Hydrogen co-doping on acceptor related optical transitions in ZnO Nanowires, Semiconductor Science and Technology 32, 045017 (2017). (IF:1.9)
39. Ramanjaneyulu Mannam, Senthil Kumar, D.M. Priyadarshini, F. Bellarmine, Nandita DasGupta, M.S. Ramachandra Rao, Enhanced photoluminescence and heterojunction characteristics of pulsed laser deposited ZnO nanostructures, Applied Surface Science 418, 335 (2017). (IF:6.7)
40. Ramanjaneyulu Mannam, Senthil Kumar, Nandita DasGupta, M.S. Ramachandra Rao, Reversible p-type conductivity in H passivated nitrogen and phosphorous codoped ZnO thin films using rapid thermal annealing, Applied Surface Science 400, 312 (2017). (IF:6.7)
41. Mannam, F. Bellarmine, E. Senthil Kumar, N. DasGupta and M. S. Ramachandra Rao, Polarity control and enhanced luminescence characteristics of semi-polar ZnO nanostructures grown on non-polar MgO substrates, RSC advances, 6, 93125 (2016). (IF: 3.9)