Fariborz Mirlou scite author profile

Smart contact lenses (SCLs) have drawn substantial interest for continuous health monitoring applications. Even though most of the reported works utilize near‐field communication (NFC) or inductive coupling for wireless powering and data transmission, developing a scalable and rapid fabrication technique for annular ring antennas confined in a small contact lens area is still an unsolved challenge. Here, femtosecond laser ablation is employed for the first time as a simple, single‐step, and highly precise fabrication technique for NFC antennas using conventional flexible printed circuit board materials. Antenna lines with depth and width of 9 and 35 μm are achieved, respectively. The antenna with a footprint of 19.5 mm2 is characterized in biological solution followed by aging, and bending tests, and a frequency deviation of less than %1 is recorded. A real‐life application is demonstrated by fabricating an SCL embedded with the antenna, an NFC chip, and an electrochemical sensor for wireless monitoring of glucose in artificial tear solution by a smartphone. The device could successfully quantify biologically relevant glucose concentrations ranging from 0.2 to 1 mM with a limit‐of‐detection of 66 μM. In addition, device response to interfering molecules is less than ±1 nA, and the spike‐and‐recovery test is successfully demonstrated.

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A wearable paper-integrated microfluidic device for sequential analysis of sweat based on capillary action

Abbasiasl

Mirlou

Istif

et al. 2022

Sens. Diagn.

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Hybrid Plasmonic–Photonic–Organic Modulators With Low Insertion Loss and High Modulation Depth

Mirlou

Soofi

2018

J. Lightwave Technol.

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Fariborz Mirlou

Powering smart contact lenses for continuous health monitoring: Recent advancements and future challenges

An ultra-compact and wireless tag for battery-free sweat glucose monitoring

Femtosecond Laser Ablation Assisted NFC Antenna Fabrication for Smart Contact Lenses

A wearable paper-integrated microfluidic device for sequential analysis of sweat based on capillary action

Hybrid Plasmonic–Photonic–Organic Modulators With Low Insertion Loss and High Modulation Depth

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