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MXene-enabled textile-based energy grid utilizing wireless charging

Alex Inman, Bita Soltan Mohammadlou, Kateryna Shevchuk, J. Fitzpatrick, Jung Wook Park, Noah Pacik-Nelson, Iryna Roslyk, Eric M. Gallo, Raghav Garg, Flavia Vitale, Andreea Danielescu, Yury Gogotsi

2024Materials Today17 citationsDOIOpen Access PDF

Abstract

MXenes are integrated into wireless charging coils printed onto textiles, serving as a conductive adhesive between MXene textile components. These MXene coils can power MXene-textile supercapacitors, allowing electromyography measurements with epidermal MXene electrodes and active heating with printed MXene-textile filaments. • MXenes can be integrated into textiles for conductivity, energy storage, sensing, and thermal management. • MXenes can be directly printed onto textiles to make induction coils. • MXene induction coils can produce 100 mW of power. • Induction coils can be used to wirelessly charge e-textile devices. As the Internet of Things (IoT) expands, electronics will take on new form factors. With the ubiquity of textiles in our daily lives, integrating functionality into them is a promising proposition. Realizing a future with textile-based electronics (e-textiles) will require on-textile power supplies. Due to their high conductivity, electrochemically active surface, and ability to produce additive-free coatings from aqueous inks, MXenes are an ideal material to integrate into textiles to add functionality as well as generate and store electrical energy. Herein, we demonstrate an on-garment energy grid utilizing MXenes in textile-based supercapacitors and wireless chargers. Our on-garment energy grid can power real-world electronics, including peripheral electronics performing environmental sensing and data transmission, including an all-MXene surface electromyography (sEMG) sensor with real-time data transmission. Finally, we create a fully wireless textile-MXene joule heater directly powered by our MXene coil.

Topics & Concepts

GridWirelessTextileEnergy (signal processing)Computer scienceAutomotive engineeringElectrical engineeringEnvironmental scienceTelecommunicationsMaterials scienceEngineeringComposite materialPhysicsGeologyQuantum mechanicsGeodesyMXene and MAX Phase MaterialsEnergy Harvesting in Wireless NetworksAdvanced Sensor and Energy Harvesting Materials
MXene-enabled textile-based energy grid utilizing wireless charging | Litcius