Mobtakeri, S. Et Al. 2022. Highly Responsive Pd-Decorated MoO3 Nanowall H-2 Gas Sensors Obtained from In-Situ-Controlled Thermal Oxidation of Sputtered MoS2 Films. ACS APPLIED MATERIALS & INTERFACES , vol.14, no.22 , 25741-25752.

Mobtakeri, S., Habashyani, S., & Gur, E., (2022). Highly Responsive Pd-Decorated MoO3 Nanowall H-2 Gas Sensors Obtained from In-Situ-Controlled Thermal Oxidation of Sputtered MoS2 Films. ACS APPLIED MATERIALS & INTERFACES , vol.14, no.22, 25741-25752.

Mobtakeri, Soheil, Saman Habashyani, And EMRE GÜR. "Highly Responsive Pd-Decorated MoO3 Nanowall H-2 Gas Sensors Obtained from In-Situ-Controlled Thermal Oxidation of Sputtered MoS2 Films," ACS APPLIED MATERIALS & INTERFACES , vol.14, no.22, 25741-25752, 2022

Mobtakeri, Soheil Et Al. "Highly Responsive Pd-Decorated MoO3 Nanowall H-2 Gas Sensors Obtained from In-Situ-Controlled Thermal Oxidation of Sputtered MoS2 Films." ACS APPLIED MATERIALS & INTERFACES , vol.14, no.22, pp.25741-25752, 2022

Mobtakeri, S. Habashyani, S. And Gur, E. (2022) . "Highly Responsive Pd-Decorated MoO3 Nanowall H-2 Gas Sensors Obtained from In-Situ-Controlled Thermal Oxidation of Sputtered MoS2 Films." ACS APPLIED MATERIALS & INTERFACES , vol.14, no.22, pp.25741-25752.

@article{article, author={Soheil Mobtakeri Et Al. }, title={Highly Responsive Pd-Decorated MoO3 Nanowall H-2 Gas Sensors Obtained from In-Situ-Controlled Thermal Oxidation of Sputtered MoS2 Films}, journal={ACS APPLIED MATERIALS & INTERFACES}, year=2022, pages={25741-25752} }