• 文献标题:   High-performance x-ray source based on graphene oxide-coated Cu2S nanowires grown on copper film
  • 文献类型:   Article
  • 作  者:   ZHANG DS, ZHANG SY, HE K, WANG LB, SUI F, HONG XD, LI WW, LI NC, JIA ML, LI WM, WANG ZX, WANG ZP, DU B, WEI L, FENG Y, ZHONG GH, LI WJ, CHEN J, YANG CL, CHEN M
  • 作者关键词:   cuprous sulfide nanowire, graphene oxide, field emitter, xray source
  • 出版物名称:   NANOTECHNOLOGY
  • ISSN:   0957-4484 EI 1361-6528
  • 通讯作者地址:   Sun Yat Sen Univ
  • 被引频次:   0
  • DOI:   10.1088/1361-6528/abb0b6
  • 出版年:   2020

▎ 摘  要

Full static x-ray computed tomography (CT) technology has enabled higher precision and resolution imaging and has been applied in many applications such as diagnostic medical imaging, industrial inspection and security screening. In this technique, the x-ray source section is mainly composed of a thermionic cathode and electron beam scanning system. However, they have several shortcomings such as limited scanning angle, long response time and large volume. Distributed and programmable cold cathode (i.e. carbon nanotubes, ZnO nanowires (NWs)) field-emission x-ray sources are expected to solve these problems. However, there have been several long-standing challenges to the application of such cold field emitters for x-ray sources, such as the short lifetime and rigorous fabrication process, which have fundamentally prevented their widespread use. Here, we propose and demonstrate a cold field-emission x-ray source based on a graphene oxide (GO)-coated cuprous sulfide nanowire (Cu2S NW/GO) cathode. The proposed Cu2S NW/GO x-ray source provides stable emission (>18 h at a direct voltage of 2600 V) and has a low threshold (4.5 MV m(-1)for obtaining a current density of 1 mu A cm(-2)), benefiting from the demonstrated key features such asin situepitaxy growth of Cu2S NWs on Cu, nanometer-scale sharp protrusions within GO and charge transfer between the Cu2S NWs and GO layer. Our research provides a simple and robust method to obtain a high-performance cold field emitter, leading to great potential for the next generation of x-ray source and CT.