Al-Doped MoSe Monolayer As a Promising Biosensor for Exhaled Breath Analysis: A DFT Study

Overview

Journal ACS Omega

Publisher American Chemical Society

Specialty Chemistry

Date 2021 Jan 18

PMID 33458550

Citations 13

Authors

Tun Liu

Ziwen Cui

Xin Li

Hao Cui

Yun Liu

Affiliations

Soon will be listed here.

Abstract

Exhaled breath analysis by nanosensors is a workable and rapid manner to diagnose lung cancer in the early stage. In this paper, we proposed Al-doped MoSe (Al-MoSe) as a promising biosensor for sensing three typically exhaled volatile organic compounds (VOCs) of lung cancer, namely, CHO, CHO, and CH, using the density functional theory (DFT) method. Single Al atom is doped on the Se-vacancy site of the MoSe surface, which behaves as an electron-donor and enhances the electrical conductivity of the nanosystem. The adsorption and desorption performances, electronic behavior, and the thermostability of the Al-MoSe monolayer are conducted to fully understand its physicochemical properties as a sensing material. The results indicate that the Al-MoSe monolayer shows admirable sensing performances with CHO, CHO, and CH with responses of -85.7, -95.6, and -96.3%, respectively. Also, the desirable adsorption performance and the thermostability endow with the Al-MoSe monolayer with good sensing and desorbing behaviors for the recycle detection of three VOCs. We are hopeful that the results in this paper could provide some guidance to the experimentalists fulfilling their exploration in the practical application, which can also broaden the exploration of transition-metal dichalcogenides (TMDs) in more fields as well.

Citing Articles

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Pristine and aurum-decorated tungsten ditellurides as sensing materials for VOCs detection in exhaled human breath: DFT analysis.

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A DFT study of the adsorption behavior and sensing properties of CO gas on monolayer MoSe in CO-rich environment.

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PMID: 38967840 DOI: 10.1007/s00894-024-06014-y.

Highly sensitive sensing of CO and HF gases by monolayer CuCl.

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PMID: 38559958 PMC: 10976383. DOI: 10.1021/acsomega.3c09191.

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