低磁场下具有共掺杂表面的金属氧化物纳米线中的增强光降解

Enhanced Photodegradation in Metal Oxide Nanowires with Co-Doped Surfaces under a Low Magnetic Field.

作者信息

Lin Jun-Xiao, Thaomonpun Jutathip, Thongpool Voranuch, Chen Wei-Jhong, Huang Chien-Hua, Sun Shih-Jye, Remes Zdenek, Tseng Yaw-Teng, Liao Yen-Fa, Hsu Hua-Shu

机构信息

Department of Applied Physics, National Pingtung University, No. 4-18, Minsheng Road, Pingtung 90044, Taiwan, R. O. C.

Division of Physics, Faculty of Science and Technology, Rajamangala University of Technology Thanyaburi, Rangsit-Nakhonnayok Rd. (Klong 6), Thanyaburi Pathum Thani 12110, Thailand.

出版信息

ACS Appl Mater Interfaces. 2021 May 19;13(19):23173-23180. doi: 10.1021/acsami.1c03397. Epub 2021 May 6.

DOI:10.1021/acsami.1c03397

PMID:33955729

Abstract

This work demonstrated the enhanced photodegradation (PD) resulting from Co-rich doping of ZnO nanowire (NW) surfaces (Co/ZnO NWs) prepared by combining Co sputtering on ZnO NWs and immersion in deionized water to exploit the hydrophilic-hydrophobic transitions on the ZnO surfaces resulting from Co atom diffusion. Because of the controllable spin-dependent density of states (DOS) induced by Co, the PD of methylene blue dye can be enhanced by approximately 90% (when compared with bare ZnO NWs) by using a conventional permanent magnet with a relatively low magnetic field strength of approximately 0.15 T. The reliability of spin polarization-modulation attained through surface doping, based on the magnetic response observed from X-ray absorption measurements and magnetic circular dichroism, provides an opportunity to create highly efficient catalysts by engineering surfaces and tailoring their spin-dependent DOS.

摘要

这项工作展示了通过在氧化锌纳米线（NW）表面进行富钴掺杂（Co/ZnO NWs）而增强的光降解（PD）。Co/ZnO NWs是通过在ZnO NWs上进行Co溅射并浸入去离子水中制备的，以利用Co原子扩散导致的ZnO表面亲疏水转变。由于Co诱导的可控自旋相关态密度（DOS），通过使用磁场强度约为0.15 T的相对较低磁场的传统永磁体，亚甲基蓝染料的PD可提高约90%（与裸露的ZnO NWs相比）。基于X射线吸收测量和磁圆二色性观察到的磁响应，通过表面掺杂实现的自旋极化调制的可靠性，为通过设计表面和调整其自旋相关DOS来制造高效催化剂提供了机会。

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低磁场下具有共掺杂表面的金属氧化物纳米线中的增强光降解

Enhanced Photodegradation in Metal Oxide Nanowires with Co-Doped Surfaces under a Low Magnetic Field.

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