J. Widegren Et Al. , "Additional investigations of a new kinetic method to follow transition-metal nanocluster formation, including the discovery of heterolytic hydrogen activation in nanocluster nucleation reactions," CHEMISTRY OF MATERIALS , vol.13, no.2, pp.312-324, 2001
Widegren, J. Et Al. 2001. Additional investigations of a new kinetic method to follow transition-metal nanocluster formation, including the discovery of heterolytic hydrogen activation in nanocluster nucleation reactions. CHEMISTRY OF MATERIALS , vol.13, no.2 , 312-324.
Widegren, J., Aiken, J., ÖZKAR, S., & Finke, R., (2001). Additional investigations of a new kinetic method to follow transition-metal nanocluster formation, including the discovery of heterolytic hydrogen activation in nanocluster nucleation reactions. CHEMISTRY OF MATERIALS , vol.13, no.2, 312-324.
Widegren, JA Et Al. "Additional investigations of a new kinetic method to follow transition-metal nanocluster formation, including the discovery of heterolytic hydrogen activation in nanocluster nucleation reactions," CHEMISTRY OF MATERIALS , vol.13, no.2, 312-324, 2001
Widegren, JA Et Al. "Additional investigations of a new kinetic method to follow transition-metal nanocluster formation, including the discovery of heterolytic hydrogen activation in nanocluster nucleation reactions." CHEMISTRY OF MATERIALS , vol.13, no.2, pp.312-324, 2001
Widegren, J. Et Al. (2001) . "Additional investigations of a new kinetic method to follow transition-metal nanocluster formation, including the discovery of heterolytic hydrogen activation in nanocluster nucleation reactions." CHEMISTRY OF MATERIALS , vol.13, no.2, pp.312-324.
@article{article, author={JA Widegren Et Al. }, title={Additional investigations of a new kinetic method to follow transition-metal nanocluster formation, including the discovery of heterolytic hydrogen activation in nanocluster nucleation reactions}, journal={CHEMISTRY OF MATERIALS}, year=2001, pages={312-324} }