Research Publications

Publication in Journals:

1. Half-metallic ferromagnetism in molybdenum doped methylammonium lead halides (MAPbX3, X = Cl, Br, I) system: First-principles study. Moshat S, Luitel H, Sanyal D, J. Mag. Magnetic Materials 519 (2021) 176463. (I F = 2.68)

2. Defect induced room temperature ferromagnetism in methylammonium lead iodide perovskite. Sil S, Luitel H, Chakrabarty M, Ray P P, Dhar J, Bandyopadhyay B, Sanyal D, Phys. Lett. A 384 (2020) 126278. (I F = 2.08)

3. NMR study of defect-induced magnetism in methylammonium lead iodide perovskite. Bandyopadhyay B, Luitel H, Sil S, Dhar J, Chakrabarti M, Nath P, Ray P. P, Sanyal D, Phys Rev B 101 (2020) 094417. (I F = 3.6)

4. Room-temperature ferromagnetism in boron-doped oxides: a combined first-principle and experimental study. Luitel H, Roy S, Chakrabarti M, Chettri P, Tiwari A, Naik V, Sanyal D, Phil Mag. Lett. 100 (2020) 141. (I F = 1.16)

5. Enhanced stability and ferromagnetic property in transition metals co-doped rutile TiO2. Roy S, Luitel H, Sanyal D, J. Phys. Chem Solids 146 (2020) 109582. (I F = 3.44)

6. Ferromagnetic property of copper doped ZnO: A first-principles study. Nayek A. K, Luitel H, Haldar B, Sanyal D, Chakrabarti M, Computational Condensed Matter, 23 (2020) e00455. (CITE SCORE = 1.7)

7. Ferromagnetic ordering in cobalt doped methylammonium lead bromide: An ab-initio study. Luitel H, Moshat S, Sanyal D, Computational Condensed Matter, 22 (2020) e00444. (CITE SCORE = 1.7)

8. Ferromagnetism in p-block-element doped ZnO: An ab-initio approach. Luitel H, Sanyal D, Computational Condensed Matter, 19 (2019) e00376. (CITE SCORE = 1.7)

9. Experimental and first principle study of room temperature ferromagnetism in 1.2 MeV C4+ implanted rutile TiO2. Luitel H, Chettri P, Tiwari A, Sanyal D, Materials Research Bulletin, 110 (2019) 13-17. (I F = 4.09)

10. Ab-initio calculation and experimental observation of room temperature ferromagnetism in 50 keV nitrogen implanted rutile TiO2. Luitel H, Chakrabarti M, Sarkar A, Dechoudury S, Bhowmick D, Naik V, Sanyal D, Mat. Res. Exp., 5 (2018) 026104. (I F = 1.41)

11. Defect generation and recovery in polycrystalline ZnO during annealing below 300˚C as studied by in situ positron annihilation spectroscopy. Luitel H, Sanyal D, Gogurla N, Sarkar A, J. Mat. Sc., 52 (2017) 7615. (I F = 3.44)

12. Ab-initio calculation of magnetic properties in B, Al, C, Si, N, P and As doped rutile TiO2. Luitel H, Sanyal D, Int. J. Mod. Phys. B, 31 (2017) 1750227. (I F = 0.88)

13. Ferromagnetism in P and As doped SnO2: First-principle study. Luitel H, Roy S, Sanyal D, Computational Condensed Matter, 14 (2017) 36-39. (CITE SCORE = 1.7)

14. Positron annihilation lifetime characterization of oxygen ion irradiated rutile TiO2. Luitel H, Sarkar A, Chakrabarti M, Chattopadhyay S, Asokan K, Sanyal D, Nuclear Instruments and Methods B, 379 (2016) 215-218. (I F = 1.27)

15. Half metallic ferromagnetic and optical properties of ruthenium-doped zinc blende ZnS: A first principles study. Ghosal S, Luitel H, Mandal S. K, Sanyal D, Jana D, J. Phys. and Chem. Solids 136 (2020) 109175. (IF = 3.44)

16. First-principles analysis of ferromagnetic properties of molybdenum-doped wide-band-gap oxides, Roy S, Luitel H, Sanyal D, Phil Mag. Lett. 99 (2019) 326. (I F = 1.16)

17. Magnetic properties of transition metal doped SnO2: A detailed theoretical study. Roy S, Luitel H, Sanyal D, Computational Condensed Matter, 21 (2019) e00393. (CITE SCORE = 1.7)

18. First principle analysis for magnetic properties of noble metal doped rutile TiO2. Roy S, Luitel H, Sanyal D, Computational Condensed Matter, 18 (2019) e00349. (CITE SCORE = 1.7)

19. Positron annihilation spectroscopic characterization of defects in wide band gap oxide Semiconductors. Sarkar A, Luitel H, Gogurla N, Sanyal D, Mat. Res. Exp., 4 (2017) 035909. (I F = 1.41)

20. Origin of ferromagnetism in Cu doped rutile TiO2 - An ab-initio approach. Roy S, Luitel H, Sanyal D, Computational Condensed Matter, 13 (2017) 127-130. (CITE SCORE = 1.7)

Details of publications can be accessed from google scholar profile:

https://scholar.google.co.in/citations?user=yxwJ5GkAAAAJ&hl=en