电催化剂
化学气相沉积
材料科学
纳米技术
自旋电子学
过渡金属
半金属
电导率
基质(水族馆)
数码产品
催化作用
光电子学
化学
电化学
凝聚态物理
带隙
电极
物理化学
物理
铁磁性
生物化学
海洋学
地质学
作者
Jianping Shi,Yahuan Huan,Mengmeng Xiao,Min Hong,Xiaoxu Zhao,Yinlu Gao,Fangfang Cui,Pengfei Yang,Stephen J. Pennycook,Jijun Zhao,Yanfeng Zhang
出处
期刊:ACS Nano
[American Chemical Society]
日期:2020-06-24
卷期号:14 (7): 9011-9020
被引量:70
标识
DOI:10.1021/acsnano.0c03940
摘要
Two-dimensional (2D) metallic transition metal dichalcogenides (MTMDCs) supply a versatile platform for investigating newfangled physical issues and developing potential applications in electronics/spintronics/electrocatalysis. Among these, NiTe2 (a type-II Dirac semimetal) possesses a Dirac point near its Fermi level. However, as-prepared 2D MTMDCs are mostly environmentally unstable, and little attention has been paid to synthesizing such materials. Herein, a general chemical vapor deposition (CVD) approach has been designed to prepare thickness-tunable and large-domain (∼1.5 mm) 1T-NiTe2 on an atomically flat mica substrate. Significantly, ultrahigh conductivity (∼1.15 × 106 S m-1) of CVD-synthesized 1T-NiTe2 and high catalytic activity in pH-universal hydrogen evolution reaction have been uncovered. More interestingly, the 2D 1T-NiTe2 maintains robust environmental stability for more than one year and even after a variety of harsh treatments. These results hereby fill an existing research gap in synthesizing environmentally stable 2D MTMDCs, making fundamental progress in developing 2D MTMDC-based devices/catalysts.
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