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MXene‐Integrated Contact Lens: A Breakthrough in Wearable Eye Protection and Healthcare

Lunjie Hu, Saman Azhari, Hanzhe Zhang, Yuki Matsunaga, Jun Hirotani, Atsushige Ashimori, Kazuhiro Kimura, Takeo Miyake

2025Small Science9 citationsDOIOpen Access PDF

Abstract

Smart contact lenses with electronic circuits are rapidly advancing for health monitoring and sensing applications, but concerns over electromagnetic (EM) radiation exposure remain. As these devices are near commercialization, protecting the eyes from such radiation is crucial. MXenes (M n +1 X n T x , where M is a transition metal, X is carbon and/or nitrogen, and T x denotes the functional groups [e.g., OH, F, O, etc.]), a class of 2D transition metal carbides/nitrides, offer exceptional properties such as high conductivity, biocompatibility, and strong EM shielding, making them ideal for preventing radiation‐induced eye diseases like cataracts. Herein, an MXene‐coated contact lens platform that effectively reduces EM radiation exposure while maintaining over 80% visible light transmission, 90% cell viability, and robust shielding capabilities is presented. This approach achieves stable integration of MXene nanosheets on soft contact lenses and mitigates their oxidation degradation. The lens also enhances dehydration protection and demonstrates safety by showing no signs of inflammation or adverse effects in rabbit eyes. These findings highlight MXene‐coated contact lenses as a promising solution for next‐generation wearable technologies and healthcare applications.

Topics & Concepts

Contact lensMaterials scienceBiocompatibilityWearable computerNanotechnologyLens (geology)Eye protectionPhotothermal therapyOptoelectronicsComputer scienceOpticsEmbedded systemPhysicsMetallurgyMXene and MAX Phase MaterialsMetamaterials and Metasurfaces ApplicationsElectromagnetic wave absorption materials