Let’s discuss: When can we call a thin film 2-dimensional?

IF 12.2 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Tobias Foller, Rakesh Joshi
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Abstract

The understanding of when a thin film is two-dimensional (2D) varies throughout the literature. It was introduced by advances in nanotechnology that allowed the fabrication of structures that are in the nm scale in one dimension. More recently, materials with atomic thickness, such as graphene and other van der Waals materials, allowed us to isolate structures that have reached the ultimate limit of thickness. Their layered structures allow a straightforward identification of the monolayers as 2D structures. Today, 2D structures are reported from a wide class of materials ranging from molecules to thin non-van der Waals layers, generating interest across a large variety of scientific fields. The thickness of these reported 2D films varies from atomic scale to several tens or even hundreds of nm. This puzzling occurrence of several hundred nm thick ‘2D materials’ calls for a critical assessment of when thin films are present as 2D. Here, we explore aspects such as atomic and electronic structure, chemical bonding, composition, and the relation of bulk-to-thin film characteristics to find criteria that describe 2D structures. With that, we aim to fuel an interdisciplinary dialogue towards establishing clear definitions for when a thin film is a 2D structure.

我们来讨论一下:什么时候可以称薄膜为二维薄膜?
关于薄膜何时为二维(2D)的理解,文献中说法不一。二维薄膜是由纳米技术的进步引入的,纳米技术的进步使我们能够制造出纳米级的结构。最近,具有原子厚度的材料,如石墨烯和其他范德华材料,使我们能够分离出达到厚度极限的结构。它们的层状结构可以直接将单层结构确定为二维结构。如今,从分子到非范德瓦耳斯薄层等各类材料的二维结构均有报道,引起了众多科学领域的兴趣。这些被报道的二维薄膜的厚度从原子尺度到几十甚至几百纳米不等。几百纳米厚的 "二维材料 "的出现令人费解,这就要求我们对二维薄膜的出现时间进行严格评估。在此,我们将从原子和电子结构、化学键、成分以及薄膜体积与厚度特征的关系等方面进行探索,以找到描述二维结构的标准。我们的目标是推动跨学科对话,为薄膜的二维结构建立明确的定义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Current Opinion in Solid State & Materials Science
Current Opinion in Solid State & Materials Science 工程技术-材料科学:综合
CiteScore
21.10
自引率
3.60%
发文量
41
审稿时长
47 days
期刊介绍: Title: Current Opinion in Solid State & Materials Science Journal Overview: Aims to provide a snapshot of the latest research and advances in materials science Publishes six issues per year, each containing reviews covering exciting and developing areas of materials science Each issue comprises 2-3 sections of reviews commissioned by international researchers who are experts in their fields Provides materials scientists with the opportunity to stay informed about current developments in their own and related areas of research Promotes cross-fertilization of ideas across an increasingly interdisciplinary field
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