曹福臣,贺天平.化学通报,2022,85(8):1009-1015.
从理论模型到探究应用:二维材料锡烯的发展史
From Theoretical Model to Inquiry Application: The Development History of Two-Dimensional Material Stanene
投稿时间:2021-11-29  修订日期:2022-03-29
DOI:
中文关键词:  锡烯  理论研究 实验制备  物化性质 应用前景
英文关键词:Stanene ,Theoretical  research, Experimental  preparation, Physical  and chemical  properties, Application  prospects
基金项目:
作者单位E-mail
曹福臣 山西大学科学技术史研究所 太原 030006 18239567527@163.om 
贺天平 山西大学科学技术史研究所 太原 030006 1310149982@qq.com 
摘要点击次数: 51
全文下载次数: 0
中文摘要:
      2011年,中科院物理研究所的姚裕贵教授从理论上对二维锡进行了研究,首次预测了二维锡是一种拓扑绝缘体。至2013年,二维锡的理论研究已较为成熟,美国斯坦福大学的张首晟教授基于锡的拉丁文stannum和二维烯材料2D-Xene后缀组合正式提出了锡烯(Stanene)的概念。2015年,上海交通大学的贾金锋教授等人利用分子束外延技术在Bi2Te3(111)衬底上首次成功地生长出了二维锡烯。随后,锡烯在不同衬底上相继生成,其制备方法取得了一定的进展。人们也在制备探究中逐渐发现,锡烯具有优异的物化性质,在众多领域内有良好的应用前景。锡烯的发展史重新诠释了二维材料的发展机制,为新型二维材料的预测、制备与应用提供了新的视角和思路。
英文摘要:
      In 2011, Professor Yao Yugui from the Institute of Physics of the Chinese Academy of Sciences conducted theoretical research on two-dimensional tin, and for the first time predicted that two-dimensional tin is a topological insulator. As of 2013, the theoretical research of two-dimensional tin has been relatively mature. Professor Zhang Shousheng of Stanford University in the United States formally proposed the concept of stanene based on the Latin stannum of tin and the two-dimensional olefin material 2D-Xene suffix combination. In 2015, Professor Jinfeng Jia of Shanghai Jiaotong University and others used molecular beam epitaxy to successfully grow two-dimensional stene on Bi2Te3(111) substrate for the first time. Subsequently, stanene was successively generated on different substrates, and its preparation methods have made certain progress. People are also gradually discovering in the preparation research that stene has excellent physical and chemical properties and has good application prospects in many fields. The development history of stene reinterprets the development mechanism of two-dimensional materials, and provides new perspectives and ideas for the prediction, preparation and application of new two-dimensional materials.
查看全文  查看/发表评论  下载PDF阅读器
关闭