Size dependent oxygen buffering capacity of ceria nanocrystals
Chemical Communications2010Vol. 46(11), pp. 1887–1889
Citations Over TimeTop 10% of 2010 papers
Jiahui Xu, Jeffrey R. Harmer, Guoqiang Li, Thomas Chapman, Paul Collier, S. W. Longworth, Shik Chi Edman Tsang
Abstract
The structural, chemical and electronic changes of ceria as a function of decreasing particle size have been studied: at sizes below 5 nm the total amount of reducible oxygen dramatically increases due to superoxide formation on the ceria surface, a result indicative of a size dependent oxygen buffering capacity.
Related Papers
- → Regulation of Superoxide Anion Production by NADPH Oxidase in Monocytes/Macrophages(2003)362 cited
- → Manipulating the Charging Energy of Nanocrystal Arrays(2005)37 cited
- → Brain Superoxide Anion Generation in Asphyxiated Piglets and the Effect of Indomethacin at Therapeutic Dose(1993)84 cited
- → Activation and Activity of the Superoxide-Generating System of Neutophils from Human Infants(1983)30 cited
- → Bowman-Birk Inhibitor Suppresses Production of Superoxide Anion Radicals in Differentiated HL-60 Cells(1999)24 cited