High-Performance Photoelectronic Sensor Using Mesostructured
ZnO Nanowires
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Abstract
Semiconductor
photoelectrodes that simultaneously possess rapid
charge transport and high surface area are highly desirable for efficient
charge generation and collection in photoelectrochemical devices.
Herein, we report mesostructured ZnO nanowires (NWs) that not only
demonstrate a surface area as high as 50.7 m<sup>2</sup>/g, comparable
to that of conventional nanoparticles (NPs), but also exhibit a 100
times faster electron transport rate than that in NP films. Moreover,
using the comparison between NWs and NPs as an exploratory platform,
we show that the synergistic effect between rapid charge transport
and high surface area leads to a high performance photoelectronic
formaldehyde sensor that exhibits a detection limit of as low as 5
ppb and a response of 1223% (at 10 ppm), which are, respectively,
over 100 times lower and 20 times higher than those of conventional
NPs-based device. Our work establishes a foundational pathway toward
a better photoelectronic system by materials design