Researchers have developed a new type of self-moisturizing, smart contact lenses that maintain a layer of fluid between the contact lens and the eye using a novel mechanism.

Smart contact lenses are wearable devices that could accelerate vision beyond natural human capabilities. They are being developed for a wide range of applications, from non-invasive monitoring, to vision correction, to augmented reality display.

Although there have been many advancements in new functions for smart contact lenses, there has been little progress in solving the drawbacks associated with wearing contact lenses day-today. One of the biggest problems with contact lenses is they can cause “dry eye syndrome” due to reduced blinking and increased moisture evaporation. Dry eye syndrome can lead to corneal wounds and inflammation as well as a feeling of discomfort.

Illustration of a self-moisturizing soft contact lens that supplies tears via electroosmotic flow from the temporary tear reservoir behind the lower eyelid. (Image Credit: Tohoku University)

In order to tackle this problem, the researchers developed a new mechanism that keeps the lens moist. The system uses electro-osmotic flow (EOF), which causes liquid to flow when a voltage is applied across a charged surface. In this case, a current applied to a hydrogel causes fluid to flow upwards from the patient’s temporary tear reservoir behind the lower eyelid to the surface of the eye.

The researchers also explored the possibility of using a wireless power supply for the contact lenses. They tested two types of battery: a magnesium-oxygen battery and an enzymatic fructose-oxygen fuel cell, both of which are known to be safe and non-toxic for living cells. They showed that the system can be successfully powered by these biobatteries, which can be mounted directly on the charged contact lens. Further research is needed to develop improved self-moisturizing contact lenses that are tougher and capable of operating at smaller currents.

For more information, contact Matsuhiko Nishizawa at This email address is being protected from spambots. You need JavaScript enabled to view it.; +81-22-795-7003.


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This article first appeared in the March, 2020 issue of Tech Briefs Magazine.

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