压电
材料科学
分解水
催化作用
析氧
纳米材料
制氢
纳米技术
光催化
氢
电极
化学工程
光电子学
复合材料
物理化学
化学
电化学
工程类
有机化学
作者
Shun Li,Zhicheng Zhao,Jiabin Li,Hong Liu,Maosong Liu,Yuqiao Zhang,Lizhong Su,Ana I. Pérez-Jiménez,Guo Yunchang,Fan Yang,Yong Liu,Jinzhu Zhao,Jianming Zhang,Li‐Dong Zhao,Yuanhua Lin
出处
期刊:Small
[Wiley]
日期:2022-06-26
卷期号:18 (29)
被引量:52
标识
DOI:10.1002/smll.202202507
摘要
Piezoelectric nanomaterials open new avenues in driving green catalysis processes (e.g., H2 evolution from water) through harvesting mechanical energy, but their catalytic efficiency is still limited. The predicted enormous piezoelectricity for 2D SnSe, together with its high charge mobility and excellent flexibility, renders it an ideal candidate for stimulating piezocatalysis redox reactions. In this work, few-layer piezoelectric SnSe nanosheets (NSs) are utilized for mechanically induced H2 evolution from water. The finite elemental method simulation demonstrates an unprecedent maximal piezoelectric potential of 44.1 V for a single SnSe NS under a pressure of 100 MPa. A record-breaking piezocurrent density of 0.3 mA cm-2 is obtained for SnSe NSs-based electrode under ultrasonic excitation (100 W, 45 kHz), which is about three orders of magnitude greater than that of reported piezocatalysts. Moreover, an exceptional H2 production rate of 948.4 µmol g-1 h-1 is achieved over the SnSe NSs without any cocatalyst, far exceeding most of the reported piezocatalysts and competitive with the current photocatalysis technology. The findings not only enrich the potential piezocatalysis materials, but also provide useful guidance toward high-efficiency mechanically driven chemical reactions such as H2 evolution from water.
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