Litcius/Paper detail

An All‐MXene‐Based Flexible, Seamless System with Integrated Wireless Charging Coil, Micro‐Supercapacitor, and Photodetector

Zhongyi Duan, Chuqiao Hu, Weijia Liu, Jinhai Liu, Zhengyu Chu, Weiqing Yang, La Li, Guozhen Shen

2023Advanced Materials Technologies31 citationsDOI

Abstract

Abstract Fabrication of miniature‐integrated devices combining energy harvester, energy storage, and various sensors via simple, fast, and efficient ways is strongly desired for the practical application of integrated smart systems. Herein, this work presents a simple one‐step laser scribing method to prepare an all MXene‐based seamlessly integrated system with integrated wireless charging coil, micro‐supercapacitor, and photodetector in a small area of only 1.78 cm 2 . All the three modules in the integrated system are composed entirely of Ti 3 C 2 T x MXene and are connected with highly conductive MXene wires without additional welding or assembling operation. The energy is first received by the wireless charging coil and then stored in the Zn‐ion micro‐supercapacitor, which is subsequently used to drive the surface‐modified (dodecyl triethoxysilane) DCTES‐MXene‐based photodetector, thus realizing the complete energy cycles. This work conceptually illustrates a simple method for designing and preparing integrated multifunctional wearable devices.

Topics & Concepts

SupercapacitorPhotodetectorMaterials scienceElectromagnetic coilWearable computerEnergy harvestingEnergy storageFabricationWirelessComputer scienceElectrical engineeringEnergy (signal processing)OptoelectronicsEmbedded systemPower (physics)EngineeringCapacitanceTelecommunicationsElectrodeStatisticsQuantum mechanicsPathologyMathematicsMedicinePhysicsAlternative medicineChemistryPhysical chemistryMXene and MAX Phase MaterialsAdvanced Sensor and Energy Harvesting MaterialsEnergy Harvesting in Wireless Networks