Publication

"Every publication is a step forward in the pursuit of knowledge----an invitation to question, explore, and inspire future discovery."

2025

1. S. Sk, N. Sato and T. Mori, Thermoelectric properties of marcasite-type compounds MSb2 (M = Ta, Nb): A combined experimental and computational study, J. Phys.: Condens. Matter 37, 135701 (2025).

2. A. R. Nugraha, S. Sk, A. Novitskii, Dedi, F. Failamani, B. Prijamboedi, T. Mori and A. A. Nugroho, High thermoelectric performance of BiCuSeO by optimized carrier concentration and point defect scattering through compositing effect of Cr addition, J. Mater. Chem. C 13, 7617 (2025).

2024

3. S. Bano, S. Sk, T. Aizawa and T. Mori, Significant Reduction of Thermal Conductivity and Enhancing Thermoelectric Performance in CrSb2 via Fe-Bi co-Alloying, Nanotechnology 35 (43), 435704 (2024).

4. S. Sk, P. Devi, S. Singh and S. K. Pandey, Thermoelectric properties of Fe2VAl in the temperature range 300 – 800 K: A combined experimental and theoretical study, Physica B: Condens. Matter 673, 415496 (2024).

2023

5. P. Rawat, S. Kala, S. Sk, S. K. Pandey, M. Khanuja, Integrated hydrothermal-green approach to synthesize Fe, Ag doped copper sulfide nanopowders and investigations of their thermoelectric properties, Physica B: Condens. Matter 660, 414918 (2023).

2022

6. S. Sk, A. Pandey and S. K. Pandey, Instrument for simultaneous measurement of Seebeck coefficient and thermal conductivity in the temperature range 300-800 K with python interfacing, Rev. Sci. Instrum. 93, 043902 (2022).

7. S. Sk and S. K. Pandey, First-principles phonon calculations for lattice dynamics, thermal expansion and lattice thermal conductivity of CoSi at high temperature region, EPL 137, 66002, (2022).

8. S. Sk, N. Shahi and S. K. Pandey, Experimental and computational approaches to study the high temperature thermoelectric properties of novel topological semimetal CoSi, J. Phys.: Condens. Matter 34, 265901 (2022).

9. S. Sk and S. K. Pandey, Density functional study of thermodynamic properties, thermal expansion and lattice thermal conductivity of Fe2VAl at high temperature region, EPL 139, 16001 (2022).

10. A. Khatun, S. Sk and S. K. Pandey, Understanding the Seebeck coefficient of LaNiO3 compound in the temperature range 300-620 K, J. Phys.: Condens. Matter 34, 125702 (2022).

11. V. K. Solet, S. Sk, and S. K. Pandey, First-principles study of optoelectronic and thermoelectronic properties of the ScAgC half-Heusler Compound, Physica Scripta 97 (10), 105711 (2022).

2021

12. S. Sk and S. K. Pandey, Dependency of XC functionals and role of 3s(2p) orbitals of Co(Si) as core/valence states on the vibrational and thermodynamic properties of CoSi, Physica B: Condens. Matter 608, 412804 (2021).

2020

13. S. Sk, J. Pati, R. S. Dhaka and S. K. Pandey, Exploring the possibility of enhancing the high figure-of-merit (>2) of Na0.74CoO2 by using combined experimental and theoretical studies, Eur. Phys. J. B 93, 155 (2020).

14. S. Sk, A. Khatun, J. Pati, R. S. Dhaka and S. K. Pandey, Investigating the thermoelectric properties of Na0.74Co1−xNbxO2 (x = 0.05, 0.10) at high temperature Region, Phys. Lett. A 384, 126893 (2020).

2019

15. S. Sk and S. K. Pandey, Studying the Seebeck coefficient of Fe2VAl compound in the High Temperature Region, AIP Conf. Proc. 2115 (1), 030424 (2019).

2018

16. S. Sk, P. Devi, S. Singh and S. K. Pandey, Exploring the best scenario for understanding the high temperature thermoelectric behaviour of Fe2VAl, Mater. Res. Express 6 (2), 026302 (2018).