Single-atom Ce targeted regulation SnS/SnS2 heterojunction for sensitive and stable room-temperature ppb-level gas sensor

异质结 材料科学 兴奋剂 X射线光电子能谱 Atom(片上系统) 量子点 纳米技术 光电子学 化学工程 计算机科学 工程类 嵌入式系统
作者
Long Li,Huyin Su,Licheng Zhou,Zhixiang Hu,Tiankun Li,Bingbing Chen,Hua‐Yao Li,Huan Liu
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:472: 144796-144796 被引量:49
标识
DOI:10.1016/j.cej.2023.144796
摘要

Metal sulfide-based gas sensors have the advantage of high sensitivity at room temperature, enabling high integration and low power consumption. However, a trade-off between low baseline resistance and good long-term stability at room temperature still needs to be addressed. Therefore, a single-atom Ce-targeted regulation strategy for p-SnS/n-SnS2 was proposed. By doping different amounts of Ce, the amount and size of SnS quantum dots on the surface of SnS2 can be regulated. Furthermore, Sn-S-Ce bonds are formed by combining single-atom Ce with SnS, which effectively hinders the growth and oxidation of SnS quantum dots, as evidenced by STEM, XPS, DFT, FTIR and EAXFS methods. Due to the unique energy band structure of p-SnS and n-SnS2, Ce-doped SnS quantum dots serve as electronic sensitizers, effectively increasing the carrier concentration in SnS2. The optimal gas sensor based on the 1% Ce-doped SnS/SnS2 composites enables high sensitivity (with a response of 22.1 to 1 ppm NO2), ultralow detection limit (1 ppb), excellent long-term stability at room temperature, and a lower baseline resistance. This engineering strategy of metal sulfide semiconductor heterostructures through single-atom targeted regulation provides new insights for further optimizing the composite system.
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