{"type":"journal_article","publication_identifier":{"issn":["2040-3364","2040-3372"]},"volume":17,"intvolume":" 17","date_created":"2025-11-27T13:13:47Z","date_updated":"2025-12-03T14:59:45Z","doi":"10.1039/d5nr01393c","publication_status":"published","abstract":[{"text":"Enhanced bifunctional electrocatalysis via CuSe2/FeSe2 heterojunctions for efficient water splitting was achieved.","lang":"eng"}],"language":[{"iso":"eng"}],"author":[{"full_name":"Kumari, Sandhyawasini","last_name":"Kumari","first_name":"Sandhyawasini"},{"full_name":"Pahra, Swapna","last_name":"Pahra","first_name":"Swapna"},{"first_name":"Amrita","full_name":"Tripathy, Amrita","last_name":"Tripathy"},{"full_name":"Sumanth, N.","last_name":"Sumanth","first_name":"N."},{"first_name":"Nieves","last_name":"Lopez-Salas","full_name":"Lopez-Salas, Nieves"},{"first_name":"Santosh K.","full_name":"Tiwari, Santosh K.","last_name":"Tiwari"},{"full_name":"Khan, Afaq Ahmad","last_name":"Khan","first_name":"Afaq Ahmad"},{"full_name":"Devi, Pooja","last_name":"Devi","first_name":"Pooja"},{"first_name":"M. S.","full_name":"Santosh, M. S.","last_name":"Santosh"}],"status":"public","user_id":"98120","publisher":"Royal Society of Chemistry (RSC)","publication":"Nanoscale","issue":"33","page":"19253-19265","year":"2025","citation":{"ieee":"S. Kumari et al., “Interfacial engineering of CuSe2/FeSe2 heterojunctions for water splitting: a pathway to high-performance hydrogen and oxygen evolution reactions,” Nanoscale, vol. 17, no. 33, pp. 19253–19265, 2025, doi: 10.1039/d5nr01393c.","mla":"Kumari, Sandhyawasini, et al. “Interfacial Engineering of CuSe2/FeSe2 Heterojunctions for Water Splitting: A Pathway to High-Performance Hydrogen and Oxygen Evolution Reactions.” Nanoscale, vol. 17, no. 33, Royal Society of Chemistry (RSC), 2025, pp. 19253–65, doi:10.1039/d5nr01393c.","bibtex":"@article{Kumari_Pahra_Tripathy_Sumanth_Lopez-Salas_Tiwari_Khan_Devi_Santosh_2025, title={Interfacial engineering of CuSe2/FeSe2 heterojunctions for water splitting: a pathway to high-performance hydrogen and oxygen evolution reactions}, volume={17}, DOI={10.1039/d5nr01393c}, number={33}, journal={Nanoscale}, publisher={Royal Society of Chemistry (RSC)}, author={Kumari, Sandhyawasini and Pahra, Swapna and Tripathy, Amrita and Sumanth, N. and Lopez-Salas, Nieves and Tiwari, Santosh K. and Khan, Afaq Ahmad and Devi, Pooja and Santosh, M. S.}, year={2025}, pages={19253–19265} }","ama":"Kumari S, Pahra S, Tripathy A, et al. Interfacial engineering of CuSe2/FeSe2 heterojunctions for water splitting: a pathway to high-performance hydrogen and oxygen evolution reactions. Nanoscale. 2025;17(33):19253-19265. doi:10.1039/d5nr01393c","short":"S. Kumari, S. Pahra, A. Tripathy, N. Sumanth, N. Lopez-Salas, S.K. Tiwari, A.A. Khan, P. Devi, M.S. Santosh, Nanoscale 17 (2025) 19253–19265.","chicago":"Kumari, Sandhyawasini, Swapna Pahra, Amrita Tripathy, N. Sumanth, Nieves Lopez-Salas, Santosh K. Tiwari, Afaq Ahmad Khan, Pooja Devi, and M. S. Santosh. “Interfacial Engineering of CuSe2/FeSe2 Heterojunctions for Water Splitting: A Pathway to High-Performance Hydrogen and Oxygen Evolution Reactions.” Nanoscale 17, no. 33 (2025): 19253–65. https://doi.org/10.1039/d5nr01393c.","apa":"Kumari, S., Pahra, S., Tripathy, A., Sumanth, N., Lopez-Salas, N., Tiwari, S. K., Khan, A. A., Devi, P., & Santosh, M. S. (2025). Interfacial engineering of CuSe2/FeSe2 heterojunctions for water splitting: a pathway to high-performance hydrogen and oxygen evolution reactions. Nanoscale, 17(33), 19253–19265. https://doi.org/10.1039/d5nr01393c"},"title":"Interfacial engineering of CuSe2/FeSe2 heterojunctions for water splitting: a pathway to high-performance hydrogen and oxygen evolution reactions","_id":"62653"}