混合物理化学气相沉积法制备MgB$lt;sub$gt;2$lt;/sub$gt;单晶纳米晶片的研究

利用混合物理化学气相沉积法在石墨衬底上制备出了晶形为六角结构、厚度不同、径向尺寸不一的MgB₂单晶纳米晶片. 利用纳米定向转移技术将此晶片转移到了碳支持膜铜网上, 以便对其精细结构等物性进行表征. 电输运测量和磁性测量结果都表明晶片具有超导电性: T_conset=38 K, T_c(0)=33 K. 扫描电子显微镜图像表明, 晶片表面平整、厚度分布在几个纳米到200 nm之间, 宽度从几微米到上百微米; 高分辨透射电镜图像显示出晶片具有周期性晶格条纹. 选区电子衍射数据与MgB₂已有的单晶衍射数据相符. 这些测量结果证实了其确为高质量单晶MgB₂超导纳米晶片. 本文不仅提出了一种全新的制备单晶MgB₂的方法, 也观察到了纳米尺度MgB₂单晶的零电阻现象, 为后续的磁通钉扎、纳米力学性能等领域的深入研究提供了合适的素材. 关键词： 2')" href="#">单晶MgB₂ 超导纳米晶片 零电阻 混合物理化学气相沉积法

Study on single crystal MgB2 nanosheets grown by hybrid physical-chemical vapor deposition

This report is focused on the MgB₂ nanosheets which have a hexagonal single crystal structure with variable thickness and different radial dimensions. The nanosheets are fabricated by hybird physical-chemical vapor deposition for the first time, as far as we know, and meanwhile they can be site-specific transferred so as to make physical properties measurement. Results of electrical and magnetic measurements indicate that the nanosheets is superconductive with a T_conset=38 K, T_c (0)=33 K. The images of scanning electrical microscope show that the nanosheets have a nanoscale thickness and have not only a large scale in wildth from several microns to hundreds of microns but also a flat cleaning surface. The selected area electrical diffraction data is consistent with the early report of MgB₂ diffraction. According to those results, the single crystal nanosheets with high quality can be surely indentified as MgB₂. It suggests a new technique for MgB₂ single crystal fabrication, and a zero electrical behavior is observed in nanoscale single crystal MgB₂. This could be a new opportunity to make a right material for the afterward research such as flux vortices, nanoscale mechanical properties.
Keywords： 2')" href="#">single crystal MgB₂ superconducting nanosheets zero electrical behavior hybrid physical-chemical vapor deposition