Issue 40, 2023

A bio-inspired and switchable H+/OH ion-channel for room temperature exhaled CO2 chemiresistive sensing

Abstract

Inspired by the CO2-induced reversible activation mechanism of the slow anion channel 1 (SLAC1) in plant stomatal guard cells during plant photosynthesis, we designed and prepared a CO2- switchable H+/OH ion channel (CSPH ion channel). A high-performance chemiresistive room temperature CO2 sensor has been prepared based on this CSPH ion channel. The obtained CO2 room temperature sensor γ-CD-MOF@RhB exhibits high sensitivity (Rg/R0 = 1.50, 100 ppm), excellent selectivity, good stability (less than 5% reduction in 30 days response value), and 99.96% consistency with commercial infrared CO2 meter. The practical limit of detection (pLOD) of the γ-CD-MOF@RhB sensor reaches 10 ppm at room temperature toward CO2, which is the lowest for reported MOF-derived chemiresistive room temperature CO2 sensors so far. Ion conduction mechanism studies have shown that the CSPH ion channel behaves as a CO2-switchable H+/OH ion channel with a switching point of approximately 60 000 ppm CO2. As an application attempt, the fabricated low pLOD CO2 sensor has been used for human exhaled CO2 detection to compare CO2 concentration in the breath of individuals before and after exercise and COVID-19. It was also logically indicated that the average concentration of human exhaled CO2 after COVID-19 recovery is different for undiseased subjects.

Graphical abstract: A bio-inspired and switchable H+/OH− ion-channel for room temperature exhaled CO2 chemiresistive sensing

Supplementary files

Article information

Article type
Paper
Submitted
06 Aug 2023
Accepted
22 Sep 2023
First published
22 Sep 2023

J. Mater. Chem. A, 2023,11, 21959-21971

A bio-inspired and switchable H+/OH ion-channel for room temperature exhaled CO2 chemiresistive sensing

H. Chen, R. Lu, Y. Gao, X. Yue, H. Yang, H. Li, Y. Lee, P. J. French, Y. Wang and G. Zhou, J. Mater. Chem. A, 2023, 11, 21959 DOI: 10.1039/D3TA04685K

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