Sensing of lung cancer biomarkers using titanium carbide (TiC) MXenes

Document Type

Article

Publication Date

9-15-2025

Abstract

Recent studies have shown that titanium carbide MXenes are promising 2D materials for sensing volatile organic compounds (VOCs) in human breath. While pristine titanium carbide MXenes exhibit, in general, metallic characteristics, functionalization modifies their electronic properties. In this study, a TiC monolayer functionalized with oxygen (O), a hydroxyl group (OH), sulfur (S), and fluorine (F) is investigated for its sensing characteristics for various VOCs, namely aniline (CHN), ethylbenzene (CH), 4-methyloctane (CH), and undecane (CH). The results based on van der Waals density functional theory indicate that most VOCs undergo chemisorption on the functionalized monolayers, except in the case of CHN and CH on TiCF. The calculations of electrostatic potential and Bader charge analysis affirm this, aniline acts as an electron donor, primarily attributed to the electron-donating nature of its N atom, whereas other molecules act as electron acceptors in the adsorbed complexes. The calculated current-voltage characteristics show the high sensitivity of aniline when interacting with the OH-functionalized TiC monolayer, compared to other complexes. This may be due to the low work function of the OH-functionalized monolayer, together with the donor nature of aniline. The insights gained from this study are expected to contribute to the future development of biomarkers with targeted VOC selectivity through the appropriate functionalization of MXenes.

Publication Title

Journal of materials chemistry. B

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