共轭微孔聚合物
微型多孔材料
碳纳米管
聚合物
材料科学
选择性
电导率
共轭体系
纳米技术
检出限
化学工程
化学
有机化学
物理化学
复合材料
催化作用
色谱法
工程类
作者
Weisi He,Qiwang Li,Chen Sijie,He Liu,Zhonghua Cheng,Shuang Li,Wei Lyu,Gang Xu,Xiaopeng Cheng,Yaozu Liao
出处
期刊:Small
[Wiley]
日期:2024-12-18
卷期号:21 (13): e2407880-e2407880
被引量:5
标识
DOI:10.1002/smll.202407880
摘要
Abstract Conjugated microporous polymers (CMPs) present high promise for chemiresistive gas sensing owing to their inherent porosities, high surface areas, and tunable semiconducting properties. However, the poor conductivity hinders their widespread application in chemiresistive sensing. In this work, three typical CMPs (PSATA, PSATB, and PSATT) are synthesized and their chemiresistive gas sensing performance is investigated for the first time. To further improve performance, PSATT are modified on the surface of amino‐functionalized multi‐walled carbon nanotubes (NH 2 ‐MWCNTs) to improve the conductivity. As a result, the obtained material, PSATT‐7NC exhibited a high sensitivity of 9766% toward 4 ppm NO 2 , which is 2.5 times higher than that of pristine PSATT. It also demonstrated remarkable selectivity and excellent long‐term stability. Furthermore, the lowest limit of detection (0.79 ppb) among all polymers‐based sensors is achieved at a low operating temperature of 100 °C. This work provides a valuable strategy into the development of a new material platform for advancing high‐performance gas sensing applications.
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