Enhancing functionality of health & fitness wearables with graphene

Author : Antonios Oikonomou | Business Developer for Wearables & Optoelectronics | The Graphene Flagship

01 November 2019


Created in 1780, the world’s first pedometer was developed using an earlier mechanism from a self-winding watch. Since then however, technology to ensure we meet those all-important 10,000 daily steps has come a long way...

This article was originally featured in the November 2019 issue of EPDT magazine [read the digital issue]. Sign up to receive your own copy each month.

But, as Antonios Oikonomou, Business Developer for Wearables & Optoelectronics at The Graphene Flagship explains, the wearable technology market for health and fitness is constantly looking for new materials, to help drive development and innovation.

Dubbed as the ‘year of wearables’, 2014 witnessed a surge in wearable technology for health applications and, since then, the rate at which products are released has not slowed down. According to a report by Euromonitor, units of wearable technology are projected to exceed 305 million by 2020, with a compound annual growth rate (CAGR) of 55%.

Health and fitness are amongst the most successful application areas for wearable technology. Research by Gartner states that worldwide shipments of wearable devices will reach 225 million in 2019, an increase of 25.8% from 2018. However, despite this increase in sales, technological advancements of wearable healthcare devices have arguably decelerated.


Take fitness tracking as an example. While there have been a huge number of products released, such as smartwatches, activity bands and clip-on trackers, there has been little development in technology beyond style, design and aesthetics.

Smarter wearable devices, such as those that can be weaved into clothing, implanted in shoes or concealed on the wearers skin, are only now being developed into marketable products.

For instance, Graphene Flagship partner, ICFO (Institute of Photonic Sciences) designed a wearable health tracker that is flexible, transparent and disposable, rather than the typical watch-style design. This patch has the potential, in the future, to accurately monitor multiple aspects of the wearer’s bodily functions, including heart rate, hydration, oxygen saturation, breathing rate and temperature.


As a smaller device, it would be easy to assume it is less powerful than its wrist-based predecessors. However, by using optical sensors exploiting graphene, the transdermal fitness patch surpasses current limitations of existing fitness trackers, with improved accuracy. This is thanks to a combination of optoelectronic and mechanical properties.

Gait analysis, another area of fitness which is already using wearable technology, is also being improved with the integration of graphene. Pressure sensing insoles are not a new phenomenon. However, lightweight graphene-embedded foam could allow for these to be integrated into any type of shoe. This was demonstrated by a prototype developed by Graphene Flagship researchers at the University of Cambridge, and showcased with an interactive prototype at 2019’s Mobile World Congress, whereby users could control a snowboarding avatar on a screen.

Giving runners greater freedom to use these insoles during personal training, thanks to ease of adding or removing insoles from shoes, this technology could allow for better insight into running techniques. For sportspeople and athletes, this would allow continuous monitoring of any biomechanical abnormalities in their gait cycle, helping to improve technique and avoid injury.

We have come a long way since the early examples of pedometers for counting steps – and wearables for the health and fitness market are in high demand. However, in order to keep improving their performance and capabilities, product designers must begin experimenting with new advanced materials, such as graphene and related materials.

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