W 基原子层及其具有空位有序的 2D 衍生物 WC MXene。

W-Based Atomic Laminates and Their 2D Derivative W C MXene with Vacancy Ordering.

机构信息

Thin Film Physics Division, Department of Physics, Chemistry and Biology (IFM), Linköping University, SE-581 83, Linköping, Sweden.

Chemical Physics, Department of Physics, Chalmers University of Technology, SE-412 96, Gothenburg, Sweden.

出版信息

Adv Mater. 2018 May;30(21):e1706409. doi: 10.1002/adma.201706409. Epub 2018 Apr 6.

DOI:10.1002/adma.201706409

PMID:29633399

Abstract

Structural design on the atomic level can provide novel chemistries of hybrid MAX phases and their MXenes. Herein, density functional theory is used to predict phase stability of quaternary i-MAX phases with in-plane chemical order and a general chemistry (W M ) AC, where M = Sc, Y (W), and A = Al, Si, Ga, Ge, In, and Sn. Of over 18 compositions probed, only two-with a monoclinic C2/c structure-are predicted to be stable: (W Sc ) AlC and (W Y ) AlC and indeed found to exist. Selectively etching the Al and Sc/Y atoms from these 3D laminates results in W C-based MXene sheets with ordered metal divacancies. Using electrochemical experiments, this MXene is shown to be a new, promising catalyst for the hydrogen evolution reaction. The addition of yet one more element, W, to the stable of M elements known to form MAX phases, and the synthesis of a pure W-based MXene establishes that the etching of i-MAX phases is a fruitful path for creating new MXene chemistries that has hitherto been not possible, a fact that perforce increases the potential of tuning MXene properties for myriad applications.

摘要

在原子水平上进行结构设计可以为混合 MAX 相及其 MXenes 提供新的化学性质。在此，使用密度泛函理论预测具有面内化学有序性和通用化学（W M ）AC 的准晶 i-MAX 相的相稳定性，其中 M = Sc、Y（W），A = Al、Si、Ga、Ge、In 和 Sn。在所研究的 18 种以上组成中，仅两种具有单斜 C2/c 结构的组成被预测为稳定：（W Sc ）AlC 和（W Y ）AlC，并且确实存在。从这些 3D 层压板中选择性地蚀刻 Al 和 Sc/Y 原子，得到具有有序金属空位的 W 基 MXene 片。通过电化学实验，表明这种 MXene 是一种新的、有前途的析氢反应催化剂。在已知形成 MAX 相的 M 元素的稳定相中再添加一个元素 W，以及合成纯 W 基 MXene，证明了 i-MAX 相的蚀刻是一种开辟新 MXene 化学的富有成效的途径，迄今为止这是不可能的，这一事实必然增加了为无数应用调整 MXene 特性的潜力。

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W 基原子层及其具有空位有序的 2D 衍生物 WC MXene。

W-Based Atomic Laminates and Their 2D Derivative W C MXene with Vacancy Ordering.

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