News Release

MXene‑based wearable contact lenses: Integrating smart technology into vision care

Peer-Reviewed Publication

Shanghai Jiao Tong University Journal Center

MXene‑Based Wearable Contact Lenses: Integrating Smart Technology into Vision Care

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  • MXene-based smart contact lenses seamlessly combine real-time biosensing, therapeutic functions, and enhanced user comfort, revolutionizing ocular health monitoring and treatment.
  • The use of transparent MXene films enables features like photothermal therapy, antimicrobial protection, and dehydration resistance, significantly improving eye protection and disease management.
  • While stability, scalability, and wireless integration pose hurdles, ongoing advancements suggest these lenses hold tremendous potential for transforming digital healthcare and ophthalmic care.
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Credit: Arezoo Khosravi, Atefeh Zarepour, Ali Zarrabi, Siavash Iravani.

As wearable health technologies evolve, smart contact lenses (SCLs) are emerging as powerful platforms for non-invasive, real-time ocular diagnostics. Now, researchers from Istanbul Okan University and Istinye University, led by Prof. Ali Zarrabi and Dr. Siavash Iravani, have presented a comprehensive review on MXene-based smart contact lenses, highlighting their transformative potential in vision care and ophthalmic health monitoring. This work outlines how MXenes—2D transition metal carbides—can revolutionize contact lens functionality through biosensing, therapy, and user comfort.

Why MXene-Based Contact Lenses Matter

  • Multifunctionality: Enable real-time monitoring of intraocular pressure (IOP), glucose, and inflammation, while offering photothermal therapy and antimicrobial protection.
  • High Performance: Transparent MXene films provide excellent electrical conductivity, mechanical flexibility, and biocompatibility.
  • Therapeutic Potential: Support drug delivery, anti-inflammatory action, and even electromagnetic shielding for eye protection.

Innovative Design and Features

  • Material Integration: MXenes like Ti3C2Tx are embedded into lens substrates for strain sensing, photothermal conversion, and optical transparency.
  • Self-Powered Sensing: MXene-based micro-supercapacitors and piezoresistive sensors enable continuous, battery-free IOP monitoring.
  • Smart Therapeutics: MXene coatings reduce inflammation, prevent bacterial adhesion, and enhance post-surgical healing in intraocular lenses (IOLs).

Applications and Future Outlook

  • Clinical Monitoring: Demonstrated 0.014 mmHg-1 sensitivity in IOP sensors and 33.21 mV mmHg-1 in crack-enhanced MXene–CNT lenses.
  • Real-Time Feedback: Integrated with wireless modules and AI for smartphone-based health alerts and personalized diagnostics.
  • Challenges and Opportunities: Key hurdles include long-term biostability, scalable synthesis, and maintaining optical clarity. Future efforts will focus on fluorine-free MXene production, surface functionalization, and clinical validation.

This review establishes MXene-based smart contact lenses as a promising frontier in digital ophthalmic healthcare, offering a convergence of biosensing, therapy, and comfort in a single wearable platform.


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