Mehar, V. Et Al. 2020. Oxophilicity Drives Oxygen Transfer at a Palladium-Silver Interface for Increased CO Oxidation Activity. ACS Catalysis , vol.10, no.23 , 13878-13889.

Mehar, V., Almithn, A., Egle, T., Yu, M., O'Connor, C. R., Karatok, M., ... Madix, R. J.(2020). Oxophilicity Drives Oxygen Transfer at a Palladium-Silver Interface for Increased CO Oxidation Activity. ACS Catalysis , vol.10, no.23, 13878-13889.

Mehar, Vikram Et Al. "Oxophilicity Drives Oxygen Transfer at a Palladium-Silver Interface for Increased CO Oxidation Activity," ACS Catalysis , vol.10, no.23, 13878-13889, 2020

Mehar, Vikram Et Al. "Oxophilicity Drives Oxygen Transfer at a Palladium-Silver Interface for Increased CO Oxidation Activity." ACS Catalysis , vol.10, no.23, pp.13878-13889, 2020

Mehar, V. Et Al. (2020) . "Oxophilicity Drives Oxygen Transfer at a Palladium-Silver Interface for Increased CO Oxidation Activity." ACS Catalysis , vol.10, no.23, pp.13878-13889.

@article{article, author={Vikram Mehar Et Al. }, title={Oxophilicity Drives Oxygen Transfer at a Palladium-Silver Interface for Increased CO Oxidation Activity}, journal={ACS Catalysis}, year=2020, pages={13878-13889} }