Computational screening of MXene-based catalysts for chlorinated hydrocarbons removal

Computational screening of MXene-based catalysts for chlorinated hydrocarbons removal

Chlorinated hydrocarbons, widely used in industrial applications, pose significant environmental and health risks due to their persistence and toxicity. Conventional remediation methods often face efficiency limitations, necessitating the exploration of innovative materials for effective pollutant d...

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Bibliographic Details
Main Authors: Miroslav Kolos, František Karlický
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:JPhys Materials
Subjects:
MXenes
chlorinated hydrocarbons
environmental remediation
catalysis
density functional theory (DFT)
trichloroethylene (TCE)
Online Access:https://doi.org/10.1088/2515-7639/add37d
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Summary:Chlorinated hydrocarbons, widely used in industrial applications, pose significant environmental and health risks due to their persistence and toxicity. Conventional remediation methods often face efficiency limitations, necessitating the exploration of innovative materials for effective pollutant degradation. MXenes, a novel class of two-dimensional materials, have emerged as promising candidates for environmental remediation due to their exceptional chemical reactivity and tunable surface properties. This study employs density functional theory to investigate trichloroethylene’s (TCE) adsorption and dechlorination mechanisms on variously terminated MXenes. Our results reveal that Ti _2 C(OH) _2 and V _2 C(OH) _2 facilitate spontaneous TCE dechlorination. With realistic termination ratios, the reaction barriers of TCE dechlorations are below 1 eV. Remarkably, only with just 17% of –O terminations substituted by –OH, non-defected Ti _2 CO _2 demonstrates robust dechlorination, forming dichloroethylene and hydrochloric acid (HCl). Additionally, single terminal vacancy MXenes exhibit highly favorable reaction pathways with barriers as low as 0.1 eV. Beyond TCE, chlorinated hydrocarbons lindane and dichlorodiphenyltrichloroethane (DDT) spontaneously dechlorinate on pristine Ti _2 C(OH) _2 , underscoring the broad applicability of MXenes in chlorinated hydrocarbon remediation. This work highlights MXenes as scalable, efficient, and versatile materials for addressing persistent organic pollutants, providing critical insights into their mechanisms and potential for practical implementation in environmental cleanup strategies.
ISSN:2515-7639

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