Bandgap Narrowing of Zinc Oxide (ZnO) by Nitrogen Incorporation for Solar Driven Hydrogen Production

机译：氮氧化锌（ZnO）的带隙变窄，用于太阳驱动氢气生产

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In this study, report on the synthesis of ZnO:N thin films by reactive RF magnetron sputtering using a Zn metal target & ZnO target in mixed N_2 and O_2 ambient. We found that the N concentration in ZnO:N thin films can be effectively controlled by varying the RF power. ZnO:N films with narrowed bandgaps were synthesized. The photoelectrochemical properties of nitrogen-incorporated ZnO (ZnO:N) films were measured and compared with those of pure ZnO films. We find that nitrogen incorporation narrows the bandgap of ZnO and shifts the optical absorption into the visible-light regions. We further find that the ZnO:N films provide considerable photoresponse in the long-wavelength regions. As a result, the ZnO:N films exhibit higher photocurrents than pure ZnO films.

机译：在该研究中，通过混合N_2和O_2环境中的Zn金属靶和ZnO靶通过反应性RF磁控溅射报告ZnO：N薄膜的合成。我们发现，通过改变RF功率，可以有效地控制ZnO：N薄膜中的N浓度。 ZnO：合成带狭窄狭窄的N薄膜。测定氮掺入ZnO（ZnO：N）膜的光电化学性质，并与纯ZnO膜的膜进行比较。我们发现氮气掺入缩小了ZnO的带隙并将光学吸收移入可见光区域。我们进一步发现ZnO：N胶片在长波长区域中提供了相当大的光响应。结果，ZnO：N膜表现出比纯ZnO膜更高的光电流。

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《Symposium on physical and analytical electrochemistry general session》|2012年||共10页
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S. Shet;
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中图分类电化学、电解、磁化学;
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3. Electron Affinity and Bandgap Optimization of Zinc Oxide for Improved Performance of ZnO/Si Heterojunction Solar Cell Using PC1D Simulations [J] . Babar Hussain, Aasma Aslam, Taj M Khan, Electronics . 2019,第2期

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5. Bandgap Narrowing of Zinc Oxide (ZnO) by Nitrogen Incorporation for Solar Driven Hydrogen Production [C] . S. Shet Symposium on physical and analytical electrochemistry general session . 2012

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Bandgap Narrowing of Zinc Oxide (ZnO) by Nitrogen Incorporation for Solar Driven Hydrogen Production

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