M. Mehmandoust Et Al. , "A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir," CHEMOSPHERE , vol.300, 2022
Mehmandoust, M. Et Al. 2022. A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir. CHEMOSPHERE , vol.300 .
Mehmandoust, M., Karimi, F., & ERK, N., (2022). A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir. CHEMOSPHERE , vol.300.
Mehmandoust, Mohammad, Fatemeh Karimi, And NEVİN ERK. "A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir," CHEMOSPHERE , vol.300, 2022
Mehmandoust, Mohammad Et Al. "A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir." CHEMOSPHERE , vol.300, 2022
Mehmandoust, M. Karimi, F. And ERK, N. (2022) . "A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir." CHEMOSPHERE , vol.300.
@article{article, author={Mohammad Mehmandoust Et Al. }, title={A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir}, journal={CHEMOSPHERE}, year=2022}