Abstract
CuO hollow spheres with hierarchical pores, that is, quasi-micropores (1.0–2.2 nm), mesopores (5–30 nm), and macropores (hollow cores, 2–4 μm), have been synthesized via a simple one-pot template-free method. The CuO hollow spheres also show a hierarchical architecture, namely, the primary CuO nanograins, the quasi-single-crystal nanosheets assembled by nanograins, and the spheres composed of the nanosheets. A mechanism involving an “oriented attachment” growth step followed by an “Ostwald ripening” process has been proposed for the hierarchical structure and pore formation of the typical CuO hollow spheres. With such unique hierarchical pores and architecture, the CuO hollow spheres display excellent sensing performance toward H2S as gas sensing material, such as low detection limit of 2 ppb, high sensitivity at parts per billion level concentration, broad linear range, short response time of 3 s, and recovery time of 9 s. The excellent performance is ascribed to a synergetic effect of the hierarchical s...
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