Investigation on the possibility of using the C2N semiconductor segment for adsorption and detection of some chlorofluorocarbons; a DFT survey

IF 3 4区工程技术 Q3 CHEMISTRY, PHYSICAL

Adsorption Pub Date : 2025-01-20 DOI:10.1007/s10450-024-00575-3

Farag M. A. Altalbawy, Iman Samir Alalaq, Vicky Jain, R. Roopashree, Junainah Abd Hamid, Mamata Chahar, Rajni Verma, Ahmed Read Al-Tameemi, Eftikhaar Hasan Kadhum, Shahad Abdulhadi Khuder, Merwa Alhadrawi

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Abstract

In this project, we have studied the possibility of using the C2N Monolayer (ML) for sensing and adsorption of several chlorofluorocarbon (CFC) derivatives from the gaseous environment. The density functional theory (DFT) approach was applied to optimize the geometrical structures of the isolated C2N ML and its complexes with of CH₃F, CH₂F₂, CHF₃, CH₃Cl, CH₂Cl₂, CHCl₃, and CF₂Cl₂ air pollutants gases. The results of the thermodynamics of adsorption indicated that C2N ML could adsorb all of the considered CFCs except CF₂Cl₂. Also, the recovery time calculations showed that in all cases (from CHF₃ with the recovery time of 3.45(10^− 4) s to CF₂Cl₂ with the recovery time of 9.47(10^− 12) s) the C2N ML is a good recoverable sorbent. The results of the conductivity calculations indicate that the presence of CH₃F, and CH₃Cl increase the σ value for the isolated C2N ML from 1.94(10^− 29) S m^− 1 to 3.16(10^− 29) S m^− 1, and 3.07(10^− 29) S m^− 1, respectively. Thus, C2N ML is able to sence the presence of the mentioned CFCs.

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利用C2N半导体段吸附和检测某些氯氟烃的可能性研究DFT调查

在这个项目中，我们研究了使用C2N单层（ML）从气体环境中传感和吸附几种氯氟烃（CFC）衍生物的可能性。采用密度泛函（DFT）方法对分离得到的c2nml及其配合物与CH3F、CH2F2、CHF3、CH3Cl、CH2Cl2、CHCl3和CF2Cl2空气污染物气体的几何结构进行了优化。吸附热力学结果表明，c2nml可以吸附除CF2Cl2外的所有CFCs。同时，回收时间计算表明，在所有情况下(从恢复时间为3.45(10−4)s的CHF3到恢复时间为9.47(10−12)s的CF2Cl2)， C2N ML都是一种良好的可回收吸附剂。电导率计算结果表明，CH3F和CH3Cl的存在使分离的C2N ML的σ值分别从1.94(10−29)S m−1增加到3.16(10−29)S m−1和3.07(10−29)S m−1。因此，c2nml能够检测到上述氟氯化碳的存在。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Adsorption 工程技术-工程：化工

CiteScore

8.10

自引率

3.00%

发文量

审稿时长

2.4 months

期刊介绍： The journal Adsorption provides authoritative information on adsorption and allied fields to scientists, engineers, and technologists throughout the world. The information takes the form of peer-reviewed articles, R&D notes, topical review papers, tutorial papers, book reviews, meeting announcements, and news. Coverage includes fundamental and practical aspects of adsorption: mathematics, thermodynamics, chemistry, and physics, as well as processes, applications, models engineering, and equipment design. Among the topics are Adsorbents: new materials, new synthesis techniques, characterization of structure and properties, and applications; Equilibria: novel theories or semi-empirical models, experimental data, and new measurement methods; Kinetics: new models, experimental data, and measurement methods. Processes: chemical, biochemical, environmental, and other applications, purification or bulk separation, fixed bed or moving bed systems, simulations, experiments, and design procedures.