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Single Fe atom-anchored manganese dioxide for efficient removal of volatile organic compounds in refrigerator

Yiwen Wang, Jun Zhang, Yongfei Zhang, Yu Zhang, Zhe Wang, Jing Wang, Yuen Wu

2024Nano Research15 citationsDOI

Abstract

The efficient and rapid removal of volatile organic compounds (VOCs) holds significant importance for ensuring food quality and human health, particularly within the low-temperature confined spaces in refrigerators. However, achieving effective VOCs degradation under such conditions poses challenges in terms of activating inert bonds and facilitating mass transfer. In this study, we propose a novel solution by designing a cleaner module that incorporates 1.07% single Fe atom-anchored manganese dioxide catalysts (FeSAs-MnO 2 ). The combination of single Fe atoms and defect-rich MnO 2 substrate efficiently activates molecular oxygen, leading to enhanced generation of highly reactive oxygen species (ROS). Non-thermal plasma (NTP) and circulating fan are introduced to facilitate the regeneration of catalytic activity and improve mass transfer. The FeSAs-MnO 2 cleaner module demonstrates exceptional performance in trimethylamine (TMA) removal, achieving a conversion efficiency of 98.9% for 9 ppm within just 9 min. Furthermore, accelerated aging tests predict an extended service life of up to 45 years for the FeSAs-MnO 2 cleaner module, surpassing the expected lifespan of refrigerators significantly.

Topics & Concepts

ManganeseCatalysisInertChemistryTrimethylamineChemical engineeringSubstrate (aquarium)Atom (system on chip)Environmental chemistryOrganic chemistryComputer scienceOceanographyEmbedded systemGeologyEngineeringCatalytic Processes in Materials ScienceSupercapacitor Materials and FabricationGas Sensing Nanomaterials and Sensors
Single Fe atom-anchored manganese dioxide for efficient removal of volatile organic compounds in refrigerator | Litcius