用于分子和纳米团簇选择性吸附的本征图案化二维材料。

Intrinsically patterned two-dimensional materials for selective adsorption of molecules and nanoclusters.

作者信息

Lin X, Lu J C, Shao Y, Zhang Y Y, Wu X, Pan J B, Gao L, Zhu S Y, Qian K, Zhang Y F, Bao D L, Li L F, Wang Y Q, Liu Z L, Sun J T, Lei T, Liu C, Wang J O, Ibrahim K, Leonard D N, Zhou W, Guo H M, Wang Y L, Du S X, Pantelides S T, Gao H-J

机构信息

Institute of Physics & University of Chinese Academy of Sciences, Chinese Academy of Sciences, Beijing 100190, China.

Department of Physics and Astronomy and Department of Electrical Engineering and Computer Science, Vanderbilt University, Nashville, Tennessee 37235, USA.

出版信息

Nat Mater. 2017 Jul;16(7):717-721. doi: 10.1038/nmat4915. Epub 2017 Jun 12.

DOI:10.1038/nmat4915

PMID:28604716

Abstract

Two-dimensional (2D) materials have been studied extensively as monolayers, vertical or lateral heterostructures. To achieve functionalization, monolayers are often patterned using soft lithography and selectively decorated with molecules. Here we demonstrate the growth of a family of 2D materials that are intrinsically patterned. We demonstrate that a monolayer of PtSe can be grown on a Pt substrate in the form of a triangular pattern of alternating 1T and 1H phases. Moreover, we show that, in a monolayer of CuSe grown on a Cu substrate, strain relaxation leads to periodic patterns of triangular nanopores with uniform size. Adsorption of different species at preferred pattern sites is also achieved, demonstrating that these materials can serve as templates for selective self-assembly of molecules or nanoclusters, as well as for the functionalization of the same substrate with two different species.

摘要

二维（2D）材料作为单层、垂直或横向异质结构已得到广泛研究。为了实现功能化，单层材料通常采用软光刻技术进行图案化，并选择性地用分子进行修饰。在此，我们展示了一类具有固有图案的二维材料的生长。我们证明，单层PtSe可以以交替的1T和1H相的三角形图案形式生长在Pt衬底上。此外，我们表明，在生长在Cu衬底上的单层CuSe中，应变弛豫导致具有均匀尺寸的三角形纳米孔的周期性图案。还实现了在优选图案位点吸附不同物种，这表明这些材料可以作为分子或纳米团簇选择性自组装的模板，以及用于同一衬底用两种不同物种进行功能化。

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用于分子和纳米团簇选择性吸附的本征图案化二维材料。

Intrinsically patterned two-dimensional materials for selective adsorption of molecules and nanoclusters.

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