Visualizing the Cu and Cu2O Interface Transition in Nanoparticles with Environmental Scanning Transmission Electron Microscopy
Alec Lagrow, Michael Ward, David Lloyd, Pratibha Gai, Edward Boyes

TL;DR
This study uses advanced environmental STEM to observe real-time oxidation and reduction of copper nanoparticles, revealing detailed mechanisms and crystallographic relationships crucial for catalytic applications.
Contribution
It provides the first in situ real-time visualization of Cu and Cu2O interface transitions at atomic resolution during redox processes.
Findings
Oxidation nucleates at specific sites and progresses unidirectionally.
Crystallographic relationships between phases are identified.
Oxidation and reduction kinetics depend on temperature and oxygen pressure.
Abstract
Understanding the oxidation and reduction mechanisms of catalytically active transition metal nanoparticles is important to improve their application in a variety of chemical processes. In nanocatalysis the nanoparticles can undergo oxidation or reduction in situ, and thus the redox species are not what are observed before and after reactions. We have used the novel environmental scanning transmission electron microscope (ESTEM) with 0.1 nm resolution in systematic studies of complex dynamic oxidation and reduction mechanisms of copper nanoparticles. The oxidation of copper has previously been reported to be dependent on its crystallography and its interaction with the substrate. By following the dynamic oxidation process in situ, in real time, with high-angle annular dark-field imaging in the ESTEM, we use conditions ideal to track the oxidation front as it progresses across a copper…
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Taxonomy
TopicsAdvanced Electron Microscopy Techniques and Applications · Gold and Silver Nanoparticles Synthesis and Applications · Electron and X-Ray Spectroscopy Techniques
