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Boosting Zinc‐Ion Storage Capability in Longitudinally Aligned MXene Arrays with Microchannel Architecture

Congjian Lin, Yingmeng Zhang, Wei Ying Lieu, Yongtai Xu, Dong‐Sheng Li, Arlindo Sliva, Hui Ying Yang

2024Advanced Functional Materials17 citationsDOIOpen Access PDF

Abstract

Abstract Flexible Zn 2+ ion hybrid capacitors (ZHCs) will play a crucial role in developing next‐generation wearable products, which demand portability, durability, and environmental adaptability. To further meet these requirements, Ti 3 C 2 T x MXene with exceptional conductivity and robust mechanical properties can be utilized as cathodes, except for challenges such as the dense stacking of Ti 3 C 2 T x nanosheets. In this study, a novel MXene cathode architecture has been developed with the facilitation of an ice template, which creates longitudinally aligned Ti 3 C 2 T x arrays with microchannels. The introduction of hydrochloric acid to the Ti 3 C 2 T x slurry induces a crumpled morphology, increasing active sites and enhancing ion transport with expanded interlayer spacing. Interestingly, experimental results and COMSOL simulations verify that the cathode structure also has effective impacts on the Zn anode with a weakened ion concentration gradient and suppressed dendrite formation. Consequently, the ZHCs exhibit enhanced electrochemical performance with excellent rate performance and long‐term cycling stability (enduring over 50 000 cycles at 5 A g −1 ) and further deliver a reliable low‐temperature operation by applying an anti‐freezing electrolyte. Moreover, flexible ZHCs assembled with gel electrolytes demonstrate excellent flexibility, improved rate performance, and mechanical stability, making them well‐suited for flexible electronics that power flexible LED panels.

Topics & Concepts

Materials scienceBoosting (machine learning)Microchannel plate detectorMicrochannelZincNanotechnologyArchitectureComputer data storageOptoelectronicsComputer scienceComputer hardwareMetallurgyArtificial intelligenceTelecommunicationsDetectorArtVisual artsMXene and MAX Phase MaterialsAdvanced Memory and Neural ComputingSupercapacitor Materials and Fabrication