Sacrificial Template‐Assisted Synthesis of Inorganic Nanosheets with High‐Loading Single‐Atom Catalysts: A General Approach

材料科学 纳米片 石墨烯 催化作用 氧化物 纳米技术 化学工程 退火(玻璃) 金属 热稳定性 复合材料 有机化学 化学 冶金 工程类
作者
Hamin Shin,Jaehyun Ko,Chungseong Park,Dong‐Ha Kim,Jaewan Ahn,Ji‐Soo Jang,Won Bin Im,Su‐Ho Cho,Hionsuck Baik,Il‐Doo Kim
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:32 (12) 被引量:49
标识
DOI:10.1002/adfm.202110485
摘要

Abstract Single‐atom catalysts (SACs) supported on inorganic materials have attracted much attention in numerous research fields for their high catalytic performance. However, such SACs have been limited by the low metal loading, especially on different types of inorganic supports. Herein, a general approach is presented for preparing SACs on metallic, metal oxide, and perovskite nanosheet (NS) supports to reach a high metal loading of up to 3.94 wt%, by utilizing N‐doped graphene as a sacrificial template that spatially confines the single atoms (SAs). Specifically, the target support material precursors are adsorbed onto the SAs‐stabilized sacrificial template, followed by subsequent heat treatment to transfer the SAs to the support material and to remove the graphene layer. Pt SAs on oxide support exhibits little to no aggregation throughout >10 000 min of annealing at 275 °C, demonstrating high thermal stability, as also supported by ex situ post‐anneal electron microscopy and X‐ray absorption fine structure studies. As a proof‐of‐concept, Pt SACs on SnO 2 NSs exhibit high catalytic activity toward chemiresistive sensing of acetone gas (response = 95.4 at 10 ppm, 7.6‐fold enhancement compared with pristine SnO 2 NSs) and unprecedented stability under highly humid conditions (27.4% response deterioration at 95% relative humidity).
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