Molecule‐Driven Nanoenergy Generator

A large potential can be generated when one end of 1D and/or 2D semiconducting nanostructures such as zinc oxide (ZnO) and molybdenum disulfide is exposed to a wide spectrum of chemical molecules. A nanoenergy generator that comprises vertically aligned ZnO nanowires and poly(vinyl chloride‐co‐vinyl...

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Veröffentlicht in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2019-01, Vol.15 (3), p.e1804146-n/a
Hauptverfasser: Li, Hui‐Jun, Zhang, Darui, Wang, Hongwu, Chen, Zhenlu, Ou, Nanquan, Wang, Ping, Wang, Ding, Wang, Xianying, Yang, Junhe
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Sprache:eng
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Zusammenfassung:A large potential can be generated when one end of 1D and/or 2D semiconducting nanostructures such as zinc oxide (ZnO) and molybdenum disulfide is exposed to a wide spectrum of chemical molecules. A nanoenergy generator that comprises vertically aligned ZnO nanowires and poly(vinyl chloride‐co‐vinyl‐co‐2‐hydroxypropyl acrylate) is fabricated, and it can generate electricity from various molecules including gaseous species exhaled from human breath. The generated voltage, which depends sensitively on the molecular dipole moment of adsorbed chemical species and surface coverage, is significantly larger than the streaming or piezoelectric potentials and is powerful enough to directly drive a single carbon nanotube field‐effect transistor. It is demonstrated that the notion of voltage generation through molecule‐surface interactions bears general implications to other semiconducting materials, and has the advantages of simplicity, cost‐effectiveness, fast response to a wide range of molecules, and high power output, making our approach a promising tool for energy conversion and sensing applications. A nanoenergy generator that comprises half‐sealed single‐crystalline ZnO nanowires (NWs) can generate electricity from various organic molecules including gaseous species from human breath. The magnitude of the voltage generated by ZnO NWs is about one‐order of magnitude larger than the typical streaming or piezoelectric potentials, and is powerful enough to directly drive a single carbon nanotube field‐effect transistor.
ISSN:1613-6810
1613-6829
DOI:10.1002/smll.201804146