C. Nicollet Et Al. , "Acidity of surface-infiltrated binary oxides as a sensitive descriptor of oxygen exchange kinetics in mixed conducting oxides," NATURE CATALYSIS , vol.3, no.11, pp.913-920, 2020
Nicollet, C. Et Al. 2020. Acidity of surface-infiltrated binary oxides as a sensitive descriptor of oxygen exchange kinetics in mixed conducting oxides. NATURE CATALYSIS , vol.3, no.11 , 913-920.
Nicollet, C., TOPARLI, Ç., Harrington, G. F., Defferriere, T., Yildiz, B., & Tuller, H. L., (2020). Acidity of surface-infiltrated binary oxides as a sensitive descriptor of oxygen exchange kinetics in mixed conducting oxides. NATURE CATALYSIS , vol.3, no.11, 913-920.
Nicollet, Clement Et Al. "Acidity of surface-infiltrated binary oxides as a sensitive descriptor of oxygen exchange kinetics in mixed conducting oxides," NATURE CATALYSIS , vol.3, no.11, 913-920, 2020
Nicollet, Clement Et Al. "Acidity of surface-infiltrated binary oxides as a sensitive descriptor of oxygen exchange kinetics in mixed conducting oxides." NATURE CATALYSIS , vol.3, no.11, pp.913-920, 2020
Nicollet, C. Et Al. (2020) . "Acidity of surface-infiltrated binary oxides as a sensitive descriptor of oxygen exchange kinetics in mixed conducting oxides." NATURE CATALYSIS , vol.3, no.11, pp.913-920.
@article{article, author={Clement Nicollet Et Al. }, title={Acidity of surface-infiltrated binary oxides as a sensitive descriptor of oxygen exchange kinetics in mixed conducting oxides}, journal={NATURE CATALYSIS}, year=2020, pages={913-920} }