期刊
ACS NANO
卷 5, 期 4, 页码 3257-3267出版社
AMER CHEMICAL SOC
DOI: 10.1021/nn200386n
关键词
cuprous oxide; nanoshell; structure-property relationship; Ostwald ripening; semiconductor; photovoltaics; photocatalysis
类别
资金
- University of South Carolina
We have systematically investigated the geometrically tunable optical properties of cuprous oxide (Cu2O) in a nanoshell geometry. Spherically symmetric Cu2O nanoshells with fine controlled shell thicknesses and overall dimensions over a broad size range have been fabricated in a highly controllable manner through an Ostwald ripening-based symmetric hollowing process at room temperature. Symmetric hollowing of Cu2O particles can be achieved by using polyvinylpyrrolidone as a structural directing agent to mediate aggregation of the nuclei into :;olid spheres at the initial stage of the process, whereas when using other structural directing agents, such as polyethylene glycol, an asymmetric hollowing process takes place during Ostwald ripening, which gives rise to the formation of asymmetric Cu2O nanoshell structures. We demonstrate, both experimentally and theoretically, that the optical responses of Cu2O nanoshells can be fine-tuned in the visible spectral region by tailoring the Inner and outer radii of the spherically symmetric nanoshells. Such optical tunability of Cu2O achieved in this nanoshell geometry is believed to be Important to the optimization of Cu2O-based photonic materials and devices for photovoltaic and photocatalytic applications.
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