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Comparison of the Adsorption Characteristics and Sensing Performance of MoS <sub>2</sub> , MoSe <sub>2</sub> , and Janus MoSSe toward Lithium-Ion Battery Thermal Runaway Gases

Haibing He, Maoqiang Bi, Sheng Xu, Shiqi Li, Yangxin You, Hao Chen, Zhineng Zhou, Tianyan Jiang

2026Langmuir13 citationsDOI

Abstract

with moderate recovery capability, making it a promising candidate for real-time detection of characteristic gases generated during lithium-ion battery thermal runaway.

Topics & Concepts

PhysisorptionAdsorptionWork functionBattery (electricity)Density functional theoryMaterials scienceJanusDopingThermalChemical physicsFermi levelEnthalpyWork (physics)Chemical engineeringThermal decompositionHumidityThermal runawayDensity of statesCharge cycleElectrodeCoupling (piping)MoleculeChemistryAnalytical Chemistry (journal)Sensitivity (control systems)NanotechnologyDecompositionThermal desorptionBand gap2D Materials and ApplicationsGas Sensing Nanomaterials and SensorsMXene and MAX Phase Materials
Comparison of the Adsorption Characteristics and Sensing Performance of MoS <sub>2</sub> , MoSe <sub>2</sub> , and Janus MoSSe toward Lithium-Ion Battery Thermal Runaway Gases | Litcius