Litcius/Paper detail

Transparent Air Filters with Active Thermal Sterilization

Seonggeun Han, Jae-Won Kim, Youngseok Lee, Junhyuk Bang, Cheol Gyun Kim, Junhwa Choi, JinKi Min, Inho Ha, Yeosang Yoon, Cheol‐Heui Yun, Mutya A. Cruz, Benjamin J. Wiley, Seung Hwan Ko

2021Nano Letters81 citationsDOI

Abstract

The worldwide proliferation of COVID-19 poses the urgent need for sterilizable and transparent air filters to inhibit virus transmission while retaining ease of communication. Here, we introduce copper nanowires to fabricate transparent and self-sterilizable air filters. Copper nanowire air filter (CNAF) allowed visible light penetration, thereby can exhibit facial expressions, helpful for better communication. CNAF effectively captured particulate matter (PM) by mechanical and electrostatic filtration mechanisms. The temperature of CNAF could be controlled by Joule-heating up to 100 °C with thermal stability. CNAF successfully inhibited the growth of E. coli because of the oligodynamic effect of copper. With heat sterilization, the antibacterial efficiency against G. anodireducens was greatly improved up to 99.3% within 10 min. CNAF showed high reusability with stable filtration efficiency and thermal antibacterial efficacy after five repeated uses. Our result suggests an alternative form of active antimicrobial air filter in preparation for the current and future pandemic situations.

Topics & Concepts

Sterilization (economics)Materials scienceAir filterCopperFiltration (mathematics)Air filtrationPenetration (warfare)NanowireThermalThermal stabilityReusabilityNanotechnologyChemical engineeringParticulatesChemistryComputer scienceMetallurgyMechanical engineeringForeign exchange marketEngineeringEconomicsProgramming languageStatisticsForeign exchangeMathematicsInletOperations researchMonetary economicsPhysicsMeteorologyOrganic chemistrySoftwareInfection Control and VentilationInhalation and Respiratory Drug DeliveryBurn Injury Management and Outcomes