Abbasi, A. Et Al. 2025. Enhanced adsorption and biosensing performance of adenine (C5H5N5) and guanine (C5H5N5O) nucleobases on the novel ZnO–MoSe2 nanosheets: A theoretical study. Materials Chemistry and Physics , vol.337 .

Abbasi, A., Rzayev, R., Niyazova, A., Sur, D., Ballal, S., Karimova, N., ... Suleymanova, A.(2025). Enhanced adsorption and biosensing performance of adenine (C5H5N5) and guanine (C5H5N5O) nucleobases on the novel ZnO–MoSe2 nanosheets: A theoretical study. Materials Chemistry and Physics , vol.337.

Abbasi, A Et Al. "Enhanced adsorption and biosensing performance of adenine (C5H5N5) and guanine (C5H5N5O) nucleobases on the novel ZnO–MoSe2 nanosheets: A theoretical study," Materials Chemistry and Physics , vol.337, 2025

Abbasi, A Et Al. "Enhanced adsorption and biosensing performance of adenine (C5H5N5) and guanine (C5H5N5O) nucleobases on the novel ZnO–MoSe2 nanosheets: A theoretical study." Materials Chemistry and Physics , vol.337, 2025

Abbasi, A. Et Al. (2025) . "Enhanced adsorption and biosensing performance of adenine (C5H5N5) and guanine (C5H5N5O) nucleobases on the novel ZnO–MoSe2 nanosheets: A theoretical study." Materials Chemistry and Physics , vol.337.

@article{article, author={A Abbasi Et Al. }, title={Enhanced adsorption and biosensing performance of adenine (C5H5N5) and guanine (C5H5N5O) nucleobases on the novel ZnO–MoSe2 nanosheets: A theoretical study}, journal={Materials Chemistry and Physics}, year=2025}